Methods and targets for identifying compounds for regulating angiogenesis

ABSTRACT

The present invention provides methods for identifying genes and proteins that may regulate angiogenesis. The genes identified may be used as markers for the disease onset and progression and to measure efficacy of a therapeutic. The present invention also provides methods to screen agents that are capable of regulating angiogenesis. The present invention also provides methods of identifying therapeutic compounds that may treat various disorders by regulating the expression and activity of genes and proteins identified.

CROSS REFERENCE TO RELATED APPLICATION

This application claims the benefit of U.S. Provisional Application Ser. No. 60/679,881, filed 11 May 2005, which is herein incorporated by reference in its entirety.

REFERENCE TO ELECTRONIC SUBMISSION OF A TABLE

This Application contains a data table (designated as Table 4 in the specification) as an appendix on a compact disc as required under 37 CFR §1.52(e)(1)(iii) and 37 CFR § 1.58, and is herein incorporated by reference in its entirety in accordance with 37 CFR § 1.77(b)(4). A duplicate disc is also provided as required under 37 CFR § 1.52(e)(4). Both the compact discs are identical in their contents. The compact discs each contain a single ASCII (.txt) file for the Table 4, entitled “9986M_Table_(—)4.txt”, which were created on 4 May 2006, using an IBM-PC machine format, are 71 kb in size, and are Windows XP compatible. A statement that both the files on the discs are identical is also submitted separately as required under 37 CFR § 1.52(e)(4).

REFERENCE TO A SEQUENCE LISTING

This Application contains a Sequence Listing appendix on a computer readable form as required by 37 CFR 1.821(e), and is incorporated by reference in its entirety in accordance with 37 CFR 1.77(b)(4). A paper copy of the Sequence Listing is also provided as required by 37 CFR 1.821(c). The Sequence Listing on the computer readable form is identical to the one on the paper copy.

FIELD OF THE INVENTION

The present invention relates to methods of identifying target genes and compounds for regulating angiogenesis. The invention also relates to methods for the treatment of angiogenesis regulated disorders using the genes or proteins of the invention as targets for intervention.

BACKGROUND OF THE INVENTION

Angiogenesis, the sprouting of new blood vessels from the pre-existing vasculature, plays a crucial role in a wide range of physiological and pathological processes (Nguyen, L. L. et al, Int. Rev. Cytol., 204, 1-48, (2001)). Angiogenesis is a complex process, mediated by communication between the endothelial cells that line blood vessels and their surrounding environment. In the early stages of angiogenesis, tissue or tumor cells produce and secrete pro-angiogenic growth factors in response to environmental stimuli such as hypoxia. These factors diffuse to nearby endothelial cells and stimulate receptors that lead to the production and secretion of proteases that degrade the surrounding extracellular matrix. These activated endothelial cells begin to migrate and proliferate into the surrounding tissue toward the source of these growth factors (Bussolino, F., Trends Biochem. Sci., 22, 251-256, (1997)). Endothelial cells then stop proliferating and differentiate into tubular structures, which is the first step in the formation of stable, mature blood vessels. Subsequently, periendothelial cells, such as pericytes and smooth muscle cells, are recruited to the newly formed vessel in a further step toward vessel maturation.

Angiogenesis is regulated by a balance of naturally occurring pro- and anti-angiogenic factors. Vascular endothelial growth factor, fibroblast growth factor, and angiopoeitin represent a few of the many potential pro-angiogenic growth factors. These ligands bind to their respective receptor tyrosine kinases on the endothelial cell surface and transduce signals that promote cell migration and proliferation. Whereas many regulatory factors have been identified, the molecular mechanisms of this process are still not fully understood.

There are many disease states driven by persistent unregulated or improperly regulated angiogenesis. In such disease states, unregulated or improperly regulated angiogenesis may either cause a particular disease or exacerbate an existing pathological condition. For example, ocular neovascularization has been implicated as the most common cause of blindness and underlies the pathology of approximately 20 eye diseases. In certain previously existing conditions such as arthritis, newly formed capillary blood vessels invade the joints and destroy cartilage. In diabetes, new capillaries formed in the retina invade the vitreous humor, causing bleeding and blindness.

Both the growth and metastasis of solid tumors are also angiogenesis-dependent, Folkman et al., “Tumor Angiogenesis,” Chapter 10, 206-32, in The Molecular Basis of Cancer, Mendelsohn et al., eds., W. B. Saunders, (1995). It has been shown that tumors that enlarge to greater than 2 mm in diameter must obtain their own blood supply and do so by inducing the growth of new capillary blood vessels. After these new blood vessels become embedded in the tumor, they provide nutrients and growth factors essential for tumor growth as well as a means for tumor cells to enter the circulation and metastasize to distant sites, such as liver, lung or bone (Weidner, New Eng. J. Med., 324, 1, 1-8 (1991)). When used as drugs in tumor-bearing animals, natural inhibitors of angiogenesis may prevent the growth of small tumors (O'Reilly et al., Cell, 79, 315-28 (1994)). In some protocols, the application of such inhibitors leads to tumor regression and dormancy even after cessation of treatment (O'Reilly et al., Cell, 88, 277-85 (1997)). Moreover, supplying inhibitors of angiogenesis to certain tumors may potentiate their response to other therapeutic regimens (see, e.g., Teischer et al., Int. J. Cancer, 57, 920-25 (1994)).

Although many disease states are driven by persistent unregulated or improperly regulated angiogenesis, many disease states could be treated by increased angiogenesis. Tissue growth and repair are biologic events wherein cellular proliferation and angiogenesis occur. Thus an important aspect of wound repair is the revascularization of damaged tissue by angiogenesis.

Chronic, non-healing wounds are a major cause of prolonged morbidity in the aged human population. This is especially the case in bedridden or diabetic patients who develop severe, non-healing skin ulcers. In many of these cases, the delay in healing is a result of inadequate blood supply either as a result of continuous pressure or of vascular blockage. Poor capillary circulation due to small artery atherosclerosis or venous stasis contributes to the failure to repair damaged tissue. Such tissues are often infected with microorganisms that proliferate unchallenged by the innate defense systems of the body which require well vascularized tissue to effectively eliminate pathogenic organisms. As a result, most therapeutic intervention centers on restoring blood flow to ischemic tissues thereby allowing nutrients and immunological factors access to the site of the wound.

Atherosclerotic lesions in large vessels may cause tissue ischemia that could be ameliorated by modulating blood vessel growth to the affected tissue. For example, atherosclerotic lesions in the coronary arteries cause angina and myocardial infarction that could be prevented if one could restore blood flow by stimulating the growth of collateral arteries. Similarly, atherosclerotic lesions in the large arteries that supply the legs cause ischemia in the skeletal muscle that limits mobility and in some cases necessitates amputation, which may also be prevented by improving blood flow with angiogenic therapy.

Other diseases such as diabetes and hypertension are characterized by a decrease in the number and density of small blood vessels such as arterioles and capillaries. These small blood vessels are critical for the delivery of oxygen and nutrients. A decrease in the number and density of these vessels contributes to the adverse consequences of hypertension and diabetes including claudication, ischemic ulcers, accelerated hypertension, and renal failure. These common disorders and many other less common ailments, such as Burgers disease, could be ameliorated by increasing the number and density of small blood vessels using angiogenic therapy.

Thus, there is a continuing need to identify regulators of angiogenesis. However, one problem associated with identification of compounds for use in the treatment of angiogenesis has been the lack of good screening targets and of screening methods for the identification of such compounds.

SUMMARY OF THE INVENTION

The present invention relates to screening for compounds that modulate expression or activity of a gene involved in regulating angiogenesis. The present invention identifies such genes as targets to screen for compounds that modulate their expression or activity and thereby regulate angiogenesis.

In one embodiment, the invention provides for a method of screening compounds useful for regulating angiogenesis, comprising the steps of: (a) exposing a protein of the invention to a compound; and (b) measuring binding or activity of the protein; wherein binding of the compound to the protein or a modulation in the activity of the protein indicates that the compound is useful for regulating angiogenesis.

In another embodiment, the invention provides for a method of screening compounds useful for regulating angiogenesis, comprising the steps of: (a) expressing a protein of the invention in a suitable cell; (b) exposing the cells to a compound; and (c) measuring activity of the protein; wherein a modulation in the activity of the protein indicates that the compound is useful for regulating angiogenesis.

In another embodiment, the invention provides for a method of screening compounds useful for modulating expression of a gene or a family of genes involved in regulating angiogenesis comprising the steps of: (a) exposing a gene of the invention to a compound; and (b) measuring expression of the gene; wherein a modulation in the expression of the gene indicates the compound is useful for regulating angiogenesis.

In another embodiment, the invention provides for a method of screening compounds useful for regulating angiogenesis, comprising (a) selecting a compound that binds or regulates the activity or the expression of a protein of the invention; (b) further determining whether the compound regulates angiogenesis in an in vitro or in vivo angiogenesis model system; and (c) identifying those compounds that modulate angiogenesis in the angiogenesis model system as compounds for regulating angiogenesis.

In another embodiment, the invention provides a method for diagnosing a condition characterized by unregulated or improperly regulated angiogenesis, comprising detecting the level of expression of, or assaying for activity of a protein encoded by a gene of Table 4 in a tissue, wherein difference in expression and/or activity compared to expression and/or activity in a healthy/control tissue is indicative of unregulated or improperly regulated angiogenesis.

In another embodiment, the present invention also provides methods of monitoring the effectiveness of treatment, or monitoring the progression/regression of a disorder that is characterized by unregulated or improperly regulated angiogenesis, comprising administering a pharmaceutical composition to the subject, preparing a gene or gene family expression profile and/or assaying for an activity of a protein encoded by a gene or a member of a gene family of Table 4 from a tissue sample from the patient at various time intervals during the treatment and comparing the patient expression profile and/or activity to the expression profile and/or activity to each other and to control datasets. The profiles of gene expression or protein activity and their comparison to datasets from control samples would be indicative of effectiveness of the treatment or progression/regression of a dysregulated angiogenesis.

In another embodiment, the invention provides a pharmaceutical composition, comprising: a safe and effective amount of an agonist or an antagonist of a protein involved in regulating angiogenesis identified in Table 4; and a pharmaceutically acceptable carrier.

In another embodiment, the invention provides a method for regulating angiogenesis in a subject in which such a regulation is desirable, comprising: identifying a subject in which regulation of angiogenesis is desirable; and administering to the subject a safe and effective amount of compound that is an agonist or an antagonist of a protein identified in Table 4. In one embodiment, the desired regulation of angiogenesis is an increase in angiogenesis in the subject. In another embodiment, the desired regulation of angiogenesis is a decrease in angiogenesis in the subject.

-   -   28. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with ETL protein;         -   b. determining whether the compound binds the ETL protein;             and         -   c. identifying those compounds that bind the ETL protein as             compounds for regulating angiogenesis.     -   29. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with ETL protein;         -   b. determining whether the compound binds the ETL protein;         -   c. selecting those compounds that bind the ETL protein, and             further     -   25. determining whether the compound regulates angiogenesis in         an angiogenesis model system; and         -   d. identifying those compounds that regulates angiogenesis             in an angiogenesis model system as compounds for regulating             angiogenesis.     -   30. The method according to claim 28, further comprising:         administering the compound identified in step (c) of claim 28 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis in vivo.     -   31. The method according to claim 29, further comprising:         administering the compound identified in step (d) of claim 29 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis in vivo.     -   32. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             ETL protein;         -   b. determining and comparing the level of activity of the             ETL protein in the cell population that is contacted with             the compound to the level of activity of the ETL protein in             the cell population that is not contacted with the compound;             and         -   c. identifying those compounds that modulate the activity of             the ETL protein in the cell population that is contacted             with the compound compared to the activity in the cell             population that is not contacted with the compound as             compounds for regulating angiogenesis.     -   33. The method according to claim 32, further comprising:         -   a. further determining whether the compound identified in             step (c) of claim 32 regulates angiogenesis in an             angiogenesis model system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   34. The method according to claim 32, further comprising:         administering the compound identified in step (c) of claim 32 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   35. The method according to claim 33, further comprising:         administering the compound identified in step (b) of claim 33 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   36. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             ETL protein;         -   b. determining and comparing the level of expression of the             ETL protein in the cell population that is contacted with             the compound to the level of expression of the ETL protein             in the cell population that is not contacted with the             compound; and         -   c. identifying those compounds that modulate the expression             of the ETL protein in the cell population that is contacted             with the compound compared to the expression of the ETL             protein in the cell population that is not contacted with             the compound as compounds for regulating angiogenesis.     -   37. A method according to claim 36, further comprising:         -   a. determining whether the compound identified in step (c)             of claim 36 regulates angiogenesis in an angiogenesis model             system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   38. The method according to claim 36, further comprising:         administering the compound identified in step (c) of claim 36 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   39. The method according to claim 37, further comprising:         administering the compound identified in step (b) of claim 37 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   40. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             ETL gene;         -   b. determining and comparing the level of expression of the             ETL gene in the cell population that is contacted with the             compound to the level of expression of the ETL gene in the             cell population that is not contacted with the compound; and         -   c. identifying those compounds that modulate the expression             of the ETL gene in the cell population that is contacted             with the compound compared to the expression of the ETL gene             in the cell population that is not contacted with the             compound as compounds for regulating angiogenesis.     -   41. A method according to claim 40, further comprising:         -   a. determining whether the compound identified in step (c)             of claim 40 regulates angiogenesis in an angiogenesis model             system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   42. The method according to claim 40, further comprising:         administering the compound identified in step (c) of claim 40 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   43. The method according to claim 41, further comprising:         administering the compound identified in step (b) of claim 41 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   44. A method of diagnosing unregulated or improperly regulated         angiogenesis, comprising:         -   a. preparing gene expression profile for ETL gene; or             measuring the level of expression or activity of ETL protein             in a biological sample;         -   b. comparing levels of expression of the ETL gene from the             sample to level of expression of the ETL gene from a control             sample or database, or comparing levels of expression or             activity of the ETL protein from the sample to levels of             expression or activity of the ETL protein from a control             sample or from a database, wherein significant deviation             from control levels is indicative of unregulated or             improperly regulated angiogenesis.     -   45. A method of monitoring progression of angiogenesis,         comprising:         -   a. preparing gene expression profile for ETL gene; or             preparing ETL protein expression profile, or ETL protein             activity profile from a suitable angiogenesis model system;         -   b. administering a therapeutic regimen to the subject;         -   c. preparing a similar expression or activity profile as in             step (a) after a suitable time after the therapeutic             regimen;         -   d. comparing the profiles prior to the intervention with             profiles after the intervention; and         -   e. repeating the steps (b), (c) and (d) during the course of             the therapy and evaluating the data to monitor progression             of angiogenesis.     -   46. A method of monitoring the treatment or progression of a         disorder in a patient with unregulated or improperly regulated         angiogenesis, comprising:         -   a. preparing a gene expression profile for one or more gene             involved in regulating angiogenesis identified in Table 4;             or preparing a protein expression profile, or protein             activity profile of one or more proteins involved in             regulating angiogenesis identified in Table 4 from a             subject;         -   b. administering a therapeutic regimen to the subject;         -   c. preparing a similar expression or activity profile as in             step (a) from a cell or tissue sample from the subject after             a suitable time after the therapeutic regimen;         -   d. comparing the profiles prior to the therapy with profiles             after the therapy; and         -   e. repeating the steps (b), (c) and (d) during the course of             the treatment or disorder and evaluating the data to monitor             efficacy of the treatment or progression of the disorder.     -   47. A pharmaceutical composition, comprising:         -   a. a safe and effective amount of an agonist or an             antagonist ETL protein; and         -   b. a pharmaceutically acceptable carrier.     -   48. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         28.     -   49. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         32.     -   50. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         36.     -   51. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         40.     -   52. A method for regulating angiogenesis in a subject in which         such a regulation is desirable, comprising:         -   a. identifying a subject in which regulation of angiogenesis             is desirable; and         -   b. administering to the subject a safe and effective amount             of compound that is an agonist or an antagonist of ETL             protein.     -   53. The method of claim 52, wherein the desired regulation of         angiogenesis is an increase in angiogenesis in the subject.     -   54. The method of claim 52, wherein the desired regulation of         angiogenesis is a decrease in angiogenesis in the subject.     -   55. A method according to claim 28, wherein the ETL protein has         the amino acid sequence selected from SEQ ID NOs: 2, 4, 6, and         8.     -   56. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with GPR176 protein;         -   b. determining whether the compound binds the GPR176             protein; and         -   c. identifying those compounds that bind the GPR176 protein             as compounds for regulating angiogenesis.     -   57. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with GPR176 protein;         -   b. determining whether the compound binds the GPR176             protein;         -   c. selecting those compounds that bind the GPR176 protein,             and further determining whether the compound regulates             angiogenesis in an angiogenesis model system; and         -   d. identifying those compounds that regulates angiogenesis             in an angiogenesis model system as compounds for regulating             angiogenesis.     -   58. The method according to claim 56, further comprising:         administering the compound identified in step (c) of claim 56 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis in vivo.     -   59. The method according to claim 57, further comprising:         administering the compound identified in step (d) of claim 57 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis in vivo.     -   60. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             GPR176 protein;         -   b. determining and comparing the level of activity of the             GPR176 protein in the cell population that is contacted with             the compound to the level of activity of the GPR176 protein             in the cell population that is not contacted with the             compound; and         -   c. identifying those compounds that modulate the activity of             the GPR176 protein in the cell population that is contacted             with the compound compared to the activity in the cell             population that is not contacted with the compound as             compounds for regulating angiogenesis.     -   61. The method according to claim 60, further comprising:         -   a. further determining whether the compound identified in             step (c) of claim 60 regulates angiogenesis in an             angiogenesis model system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   62. The method according to claim 60, further comprising:         administering the compound identified in step (c) of claim 60 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   63. The method according to claim 61, further comprising:         administering the compound identified in step (b) of claim 61 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   64. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             GPR176 protein;         -   b. determining and comparing the level of expression of the             GPR176 protein in the cell population that is contacted with             the compound to the level of expression of the GPR176             protein in the cell population that is not contacted with             the compound; and         -   c. identifying those compounds that modulate the expression             of the GPR176 protein in the cell population that is             contacted with the compound compared to the expression of             the GPR176 protein in the cell population that is not             contacted with the compound as compounds for regulating             angiogenesis.     -   65. A method according to claim 64, further comprising:         -   a. determining whether the compound identified in step (c)             of claim 64 regulates angiogenesis in an angiogenesis model             system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   66. The method according to claim 64, further comprising:         administering the compound identified in step (c) of claim 64 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   67. The method according to claim 65, further comprising:         administering the compound identified in step (b) of claim 65 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   68. A method for identifying compounds for regulating         angiogenesis, comprising:         -   a. contacting a compound with a cell population expressing             GPR176 gene;         -   b. determining and comparing the level of expression of the             GPR176 gene in the cell population that is contacted with             the compound to the level of expression of the GPR176 gene             in the cell population that is not contacted with the             compound; and         -   c. identifying those compounds that modulate the expression             of the GPR176 gene in the cell population that is contacted             with the compound compared to the expression of the GPR176             gene in the cell population that is not contacted with the             compound as compounds for regulating angiogenesis.     -   69. A method according to claim 68, further comprising:         -   a. determining whether the compound identified in step (c)             of claim 68 regulates angiogenesis in an angiogenesis model             system; and         -   b. identifying those compounds that regulate angiogenesis in             an angiogenesis model system as compounds for regulating             angiogenesis.     -   70. The method according to claim 68, further comprising:         administering the compound identified in step (c) of claim 68 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   71. The method according to claim 69, further comprising:         administering the compound identified in step (b) of claim 69 to         a non-human animal, and determining whether the compound         regulates angiogenesis in the animal, wherein compounds that         regulate angiogenesis in the animal are identified as compounds         for regulating angiogenesis.     -   72. A method of diagnosing unregulated or improperly regulated         angiogenesis, comprising:         -   a. preparing gene expression profile for GPR176 gene; or             measuring the level of expression or activity of GPR176             protein in a biological sample;         -   b. comparing levels of expression of the GPR176 gene from             the sample to level of expression of the GPR176 gene from a             control sample or database, or comparing levels of             expression or activity of the GPR176 protein from the sample             to levels of expression or activity of the GPR176 protein             from a control sample or from a database, wherein             significant deviation from control levels is indicative of             unregulated or improperly regulated angiogenesis.     -   73. A method of monitoring progression of angiogenesis,         comprising:         -   a. preparing gene expression profile for GPR176 gene; or             preparing GPR176 protein expression profile, or GPR176             protein activity profile from a suitable angiogenesis model             system;         -   b. administering a therapeutic regimen to the subject;         -   c. preparing a similar expression or activity profile as in             step (a) after a suitable time after the therapeutic             regimen;         -   d. comparing the profiles prior to the intervention with             profiles after the intervention; and         -   e. repeating the steps (b), (c) and (d) during the course of             the therapy and evaluating the data to monitor progression             of angiogenesis.     -   74. A method of monitoring the treatment or progression of a         disorder in a patient with unregulated or improperly regulated         angiogenesis, comprising:         -   a. preparing a gene expression profile for one or more gene             involved in regulating angiogenesis identified in Table 4;             or preparing a protein expression profile, or protein             activity profile of one or more proteins involved in             regulating angiogenesis identified in Table 4 from a             subject;         -   b. administering a therapeutic regimen to the subject;         -   c. preparing a similar expression or activity profile as in             step (a) from a cell or tissue sample from the subject after             a suitable time after the therapeutic regimen;         -   d. comparing the profiles prior to the therapy with profiles             after the therapy; and         -   e. repeating the steps (b), (c) and (d) during the course of             the treatment or disorder and evaluating the data to monitor             efficacy of the treatment or progression of the disorder.     -   75. A pharmaceutical composition, comprising:         -   a. a safe and effective amount of an agonist or an             antagonist GPR176 protein; and         -   b. a pharmaceutically acceptable carrier.     -   76. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         56.     -   77. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         60.     -   78. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         64.     -   79. A pharmaceutical composition comprising a safe and effective         amount of a compound identified by the method according to claim         68.     -   80. A method for regulating angiogenesis in a subject in which         such a regulation is desirable, comprising:         -   a. identifying a subject in which regulation of angiogenesis             is desirable; and         -   b. administering to the subject a safe and effective amount             of compound that is an agonist or an antagonist of GPR176             protein.     -   81. The method of claim 80, wherein the desired regulation of         angiogenesis is an increase in angiogenesis in the subject.     -   82. The method of claim 80, wherein the desired regulation of         angiogenesis is a decrease in angiogenesis in the subject.     -   83. A method according to claim 56, wherein the GPR176 protein         has the amino acid sequence selected from SEQ ID NOs: 10, 12,         14, 16.

SEQUENCE LISTING DESCRIPTION

-   -   Each of the nucleotide and protein sequences in the sequence         listing, along with the corresponding Genbank or Derwent         accession number(s), where applicable, and the species from         which it is derived, is shown in Table I.

TABLE I SEQ ID NOs: Sequence Nucleotide, Equivalent Genbank Description Protein Species Acc. No. ETL 1, 2 Homo sapiens XM_371262 ETL 3, 4 Rattus NM_022294 norvagicus ETL 5, 6 Mus musculus NM_133222 ETL 7, 8 Danio rerio NM_213367 GPR176  9, 10 Homo sapiens NM_07223 GPR176 11, 12 Rattus XM_243493 norvagicus GPR176 13, 14 Mus musculus NM_201367 GPR176 15, 16 Danio rerio NM_213367 GPR176 GENSCAN00000007429 Morpholino 17 Artificial oligo for ETL Mismatched 18 Artificial Morpholino oligo for ETL Morpholino 19 Artificial oligo for GPR176 Mismatched 20 Artificial Morpholino oligo for GPR176

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1. ETL expression in human aortic (AoSMC), coronary artery (CASMC) and pulmonary artery (PASMC) smooth muscle cells, and coronary artery (HCAEC), aortic (HAEC), pulmonary (HPAEC), umbilical vein (HUVEC), dermal (HMVEC-D) and lung (HMVEC-L) microvascular endothelial cells in culture.

FIG. 2. ETL expression in the cornea cauterization model.

FIG. 3. ETL expression in the rat aortic ring model.

FIG. 4. GPR expression in human aortic (AoSMC), coronary artery (CASMC) and pulmonary artery (PASMC) smooth muscle cells, and coronary artery (HCAEC), aortic (HAEC), pulmonary (HPAEC), umbilical vein (HUVEC), dermal (HMVEC-D) and lung (HMVEC-L) microvascular endothelial cells in culture.

FIG. 5. GPR expression in the cornea cauterization model.

FIG. 6. GPR expression in the rat aortic ring model.

FIG. 7. Images of morpholino oligo (MO) knockdown using mismatch control (A), ETL MO (B) or GPR MO (C) in zebrafish 48 hours post fertilization. ETL knockdown results in retarded eye formation, edema in the brain and disrupted intersegmental vessel development and disrupted blood circulation.

FIG. 8. Morpholino oligo knockdown of ETL (right) versus control (left) in intersomitic vessels of the zebrafish. MO oligos are injected at the 1-2 cell stage and zebrafish are grown at 28° C. for 48 hours post-fertilization. Fluorescent images are taken 48 hours post-fertilization to assess defects in vasculogenesis or angiogenesis.

FIG. 9. Morpholino oligo knockdown of GPR (right) versus control (left) in intersomitic vessels of the zebrafish. MO oligos are injected at the 1-2 cell stage and zebrafish are grown at 28° C. for 48 hours post-fertilization. Fluorescent images are taken 48 hours post-fertilization to assess defects in vasculogenesis or angiogenesis.

FIG. 10. Corneal Micropocket Study in wildtype (WT; n=6) and ETL knockout (ETL KO; n=6) mice. A sucralfate pellet containing 60 ng of VEGF₁₆₅ is inserted into the cornea and blood vessel growth is quantitated.

DETAILED DESCRIPTION OF THE INVENTION Molecules of the Invention

The invention comprises of various molecules:

genes that are DNA; transcripts that are RNA; nucleic acids that regulate their expression such as antisense molecules, siRNAs, micro RNAs; molecules that may be used to detect them, such as DNA or RNA probes; primers that may be used to identify and isolate related genes; and proteins and polypeptides, and compounds that inhibit or activate them.

Thus, the term molecule is used herein to describe all or some of the entities of the invention. It is to be construed in the context it is used in.

Many biological functions are accomplished by altering the expression of various genes through transcriptional (e.g. through control of initiation, provision of RNA precursors, RNA processing) or translational control. For example, fundamental biological processes such as cell cycle, cell differentiation and cell death, are often characterized by the variations in the expression levels of groups of genes and their translational products.

Changes in gene expression may also be associated with pathogenesis. For example, the lack of sufficient expression of functional tumor suppressor genes or the over expression of oncogene/proto-oncogenes could lead to tumorigenesis or hyperplastic growth of cells. Thus, changes in the expression levels of particular genes or gene families may serve as signposts for the presence and progression of various diseases.

Monitoring changes in gene expression may also provide certain advantages during drug screening. Often drugs are screened for the ability to interact with a major target without regard to other effects the drugs have on cells. Often such other effects cause toxicity in the whole animal, which prevent the use of the potential drug.

The present inventors have examined various models of angiogenesis to identify the global changes in gene expression during angiogenesis. These global changes in gene expression, also referred to as expression profiles, may provide novel targets for the treatment of angiogenesis. They may also provide useful markers for diagnostic uses as well as markers that may be used to monitor disease states, disease progression, toxicity, drug efficacy, and drug metabolism.

The expression profiles may be used to identify genes that are differentially expressed under different conditions. In addition, the present invention may be used to identify families of genes that are differentially expressed. As used herein, “gene families” includes, but is not limited to; the specific genes identified by accession numbers herein, as well as related sequences. Related sequences may be, for example, sequences having a high degree of sequence homology with an identified sequence either at the nucleotide level or at the amino acid level. A high degree of sequence identity is seen to be at least about 65% sequence identity at the nucleotide level to the genes; preferably at least about 80%, or more preferably at least about 85%, or more preferably at least about 90%, or more preferably at least about 95%, or more preferably at least about 98% or more sequence identity to the genes. With regard to amino acid identity, a high degree of identity is seen to be at least about 50% identity, more preferably at least about 75% identity, more preferably at least about 85% identity, more preferably at least about 95% identity, or more preferably at least about 98% or more sequence identity. Methods are known in the art for determining homologies and identities between various sequences some of which are described later. In particular, related sequences include homologs and orthologs from different organisms. For example, if an identified gene were from a non-human mammal, the gene family would encompass homologous genes from other vertebrates or mammals including humans. If the identified gene were a human gene, the gene family would encompass the homologous gene from different organisms. Those skilled in the art will appreciate that a homologous gene may be of different length and may comprise regions with differing amounts of sequence identity to a specifically identified sequence.

One of skill in the art would also recognize that genes and proteins from species other than those listed in the sequence listing, particularly vertebrate species, could be useful in the present invention. Such species include, but are not limited to, rats, guinea pigs, rabbits, dogs, pigs, goats, cows, monkeys, chimpanzees, sheep, hamsters and zebrafish. One of skill in the art would further recognize that by using probes from the known species' sequences, cDNA or genomic sequences homologous to the known sequence could be obtained from the same or alternate species by known cloning methods. Such homologs and orthologs are contemplated to be useful as gene and proteins of the invention.

By “variants” are intended similar sequences. For example, conservative variants may include those sequences that, because of the degeneracy of the genetic code, encode the amino acid sequence of one of the polypeptides of the invention. Naturally occurring allelic variants, and splice variants may be identified with the use of known techniques, e.g., with polymerase chain reaction (PCR), single nucleotide polymorphism (SNP) analysis, and hybridization techniques. In order to isolate orthologs and homologs, generally stringent hybridization conditions are utilized dictated by specific sequence, sequence length, guanine+cytosine (GC) content and other parameters. Variant nucleotide sequences also include synthetically derived nucleotide sequences, e.g., derived by using site-directed mutagenesis. Variants may contain additional sequences from the genomic locus alone or in combination with other sequences.

The molecules of the invention also include truncated and/or mutated proteins wherein regions of the protein not required for ligand binding or signaling have been deleted or modified. Similarly, they may be mutated to modify their ligand binding or signaling activities. Such mutations may involve non-conservative mutations, deletions, or additions of amino acids or protein domains. Variant proteins may or may not retain biological activity. Such variants may result from, e.g., genetic polymorphism or from human manipulation.

Fragments and variants of genes and proteins of the invention are also encompassed by the present invention. By “fragment” is intended a portion of the nucleotide or protein sequence. Fragments may retain the biological activity of the native protein. Fragments of a nucleotide sequence are also useful as hybridization probes and primers or to regulate expression of a gene, e.g., antisense, siRNA, or micro RNA. A biologically active portion may be prepared by isolating a portion of a nucleotide sequence, expressing the isolated portion (e.g., by recombinant expression), and assessing the activity of the encoded protein.

Fusions of a protein or a protein fragment to a different polypeptide are also contemplated. Using known methods, one of skill in the art would be able to make fusion proteins that, while different from native form, would be useful. For example, the fusion partner may be a signal (or leader) polypeptide sequence that co-translationally or post-translationally directs transfer of the protein from its site of synthesis to another site (e.g., the yeast α-factor leader). Alternatively, it may be added to facilitate purification or identification of the protein of the invention (e.g., poly-His, Flag peptide, or fluorescent proteins).

The molecules of the invention may be prepared by various methods, including, but not limited to, cloning, PCR-based cloning, site-directed mutagenesis, mutagenesis, DNA shuffling, and nucleotide sequence alterations known in the art. See, for example, Molecular Cloning: A Laboratory Manual, 2^(nd) Edition, Sambrook, Fristch, and Maniatis (1989), Cold Spring Harbor Laboratory Press; Current Protocols in Molecular Biology, Ausubel et al., (1996) and updates, John Wiley and Sons; Methods in Molecular Biology (series), volumes 158, and 182. Humana Press; PCR Protocols: A guide to Methods and Applications, Innis, Gelfand, Sninsky, and White, 1990, Academic Press.

Libraries of recombinant polynucleotides may also be generated from a population of related sequences comprising regions that have substantial sequence identity and may be recombined in vitro or in vivo. For example, using this approach, sequence motifs encoding a domain of interest may be shuffled between a gene of the invention and other known genes to obtain a new gene coding for a protein with an altered property of interest e.g. a dominant negative mutation (Ohba et al. (1998) Mol. Cell. Biol. 18:51199-51207, Matsumoto et al. (2001) J. Biol. Chem. 276:14400-14406).

The “percent identity” or “sequence identity” may be determined by aligning two sequences or subsequences over a comparison window, wherein the portion of the sequence in the comparison window may optionally comprise additions or deletions (i.e., gaps) as compared to the reference sequence (which may comprise additions or deletions) for optimal alignment of the two sequences. The percentage is calculated by determining the number of positions at which an identical residue (e.g., nucleic acid base or amino acid) occurs in both sequences, dividing the number of matched positions by the total number of positions in the window of comparison, and multiplying the result by 100 to yield the percentage of sequence identity.

Percentage sequence identity may be calculated by the local homology algorithm of Smith & Waterman, Adv. Appl. Math. 2:482-485 (1981); or by the homology alignment algorithm of Needleman & Wunsch, J. Mol. Biol. 48:443-445 (1970); either manually or by computerized implementations of these algorithms (GAP & BESTFIT in the GCG Wisconsin Software Package, Genetics Computer Group; various BLASTs from National Center for Biotechnology Information (NCBI), NIH).

A preferred method for determining homology or sequence identity is by BLAST (Basic Local Alignment Search Tool) analysis using the algorithm employed by the programs blastp, blastn, blastx, tblastn and tblastx (Karlin et al. (1990) Proc. Natl. Acad. Sci. USA 87, 2264-2268 and Altschul, (1993) J. Mol. Evol. 36, 290-300), which are tailored for sequence similarity searching.

As described herein, these various genes and proteins, their allelic and other variants (e.g. splice variants), their homologs and orthologs from other species and various fragments and mutants may exhibit sequence variations. The length of the sequence to be compared may be less than the full-length sequence.

Cell lines, Vectors, Cloning, and Expression of Recombinant Molecules

Molecules of the invention may be prepared for various uses, including, but not limited to: to purify the protein or nucleic acid product, to generate antibodies, for use as reagents in the screening assays, and for use as pharmaceutical compositions. Some embodiments may be carried out using an isolated gene or a protein, while other embodiments may require use of cells that express them.

Where the source of molecule is a cell line, the cells may endogenously express it; may have been stimulated to increase endogenous expression; or have been genetically engineered to express the molecule. Expression of a protein of interest may be determined by, for example, detection of the polypeptide with an appropriate antibody (e.g. Western blot), use of a DNA probe to detect mRNA encoding the protein (e.g., northern blot or various PCR-based techniques), or measuring binding of an agent selective for the polypeptide of interest (e.g., a suitably-labeled selective ligand).

The present invention further provides recombinant molecules that contain a coding sequence of, or a variant form of, a molecule of invention. In a recombinant DNA molecule, a coding DNA sequence is operably linked to other DNA sequences of interest including, but not limited to, various control sequences for integration, replication, transcription, expression, and modification.

The choice of vector and control sequences to which a gene sequence of the present invention is operably linked depends upon the functional properties desired (e.g., protein expression, the host cell to be transformed). A vector of the present invention may be capable of directing the replication or insertion into the host chromosome, and preferably expression of the gene.

Control elements that are used for regulating the expression of a gene are known in the art and include, but are not limited to, inducible or constitutive promoters, secretion signals, enhancers, termination signals, ribosome-binding sites, and other regulatory elements. Optimally, the inducible promoter is readily controlled, such as being responsive to a nutrient, or an antibiotic.

In one embodiment, the vector harboring a nucleic acid molecule may include a prokaryotic replicon, i.e., a DNA sequence having the ability to direct autonomous replication and maintenance of the recombinant DNA molecule extra-chromosomally in a prokaryotic host cell, such as a bacterial host cell. In addition, vectors that include a prokaryotic replicon may also include a gene whose expression confers a detectable characteristic (e.g., resistance to ampicillin).

Vectors may further include a prokaryotic or bacteriophage promoter capable of directing the expression (transcription and translation) of the coding gene sequences in a bacterial host cell, such as E. coli. Promoter sequences compatible with bacterial hosts may be provided in plasmid vectors containing convenient restriction sites for insertion of a DNA sequence of the present invention, e.g., pcDNA1, pcDNA3.

Expression vectors compatible with eukaryotic cells may also be used to form a recombinant molecule that contains a sequence of interest. Commercially available vectors often contain both prokaryotic and eukaryotic replicons and control sequences, for an easy switch from prokaryotic to eukaryotic cell to ES cells for generating transgenic cells or animals (e.g., pcDNA series from Invitrogen™).

Eukaryotic cell expression vectors used to construct the recombinant molecules of the present invention may further include a selectable marker that is effective in a eukaryotic cell (e.g., neomycin resistance). Alternatively, the selectable marker may be present on a separate plasmid, the two vectors introduced by co-transfection of the host cell, and transfectants selected by culturing in the appropriate drug for the selectable marker. Vectors may also contain fusion protein, or tag sequences that facilitate purification or detection of the expressed protein.

The present invention further provides host cells transformed with a recombinant molecules of the invention. The host cell may be a prokaryote, e.g., a bacterium, or a eukaryote, e.g., yeast, insect or vertebrate cells, including, but not limited to, cells from a mouse, monkey, frog, human, rat, guinea pig, rabbit, dog, pig, goat, cow, chimpanzee, sheep, hamster or zebrafish. Commonly used eukaryotic host cell lines include, but are not limited to, CHO cells, ATCC CCL61, NIH-3T3, and BHK cells. In many instances, primary cell cultures from animals may be preferred.

Transformation of appropriate host cells with a molecule of the present invention may be accomplished by known methods that depend on the host system employed. For transforming prokaryotic host cells, electroporation and salt treatment methods may be employed, while for transformation of eukaryotic cells, electroporation, cationic lipids, or salt treatment methods may be employed (See Sambrook et al. (1989) supra). Viral vectors, including, but not limited to, retroviral and adenoviral vectors have also been developed that facilitate transfection of primary or terminally differentiated cells. Other techniques may also be used that introduce DNA into cells e.g., liposome, gold particles, or direct injection of the DNA expression vector (as a projectile), containing the gene of interest, into human tissue.

Successfully transformed cells may be cloned to produce stable clones. Cells from these clones may be harvested, lysed and their content examined for the presence of the recombinant molecules using known methods.

Biological Samples

-   -   As is apparent to one of ordinary skill in the art, nucleic acid         samples, which may be DNA and/or RNA, used in the methods and         assays of the invention may be prepared by available methods.         Methods of isolating total mRNA are known. For example, methods         of isolation and purification of nucleic acids are described in         detail in Chapter 3 of Tijssen, (1993) Laboratory Techniques in         Biochemistry and Molecular Biology: Hybridization with Nucleic         Acid Probes, Elsevier Press. Such samples include RNA samples,         but may also include cDNA synthesized from an mRNA sample         isolated from a cell or tissue of interest. Such samples also         include DNA amplified from the cDNA, and RNA transcribed from         the amplified DNA.

Biological samples containing nucleic acids, or proteins may be of any biological tissue or fluid or cells from any organism as well as cells grown in vitro, such as cell lines and tissue culture cells. The sample may be a “clinical sample” which is a sample derived from a patient. Typical clinical samples include, but are not limited to, sputum, blood, blood-cells (e.g., white cells), various tissues or organs or parts thereof, or fine needle biopsy samples, urine, peritoneal fluid, and pleural fluid, or cells there from.

Biological samples may also include sections of tissues, such as frozen sections or formaldehyde-fixed sections taken for histological purposes.

Isolation of Other Related Nucleic Acid Molecules

As described above, the identification of the human nucleic acid molecules of Table 4 allows a skilled artisan to isolate nucleic acid molecules that encode other members of the gene family in addition to the sequences herein described. Further, the presently disclosed nucleic acid molecules allow a skilled artisan to isolate nucleic acid molecules that encode other members of the gene families.

A skilled artisan may use the proteins of Table 4 or fragments thereof to generate antibody probes to screen expression libraries prepared from appropriate cells. In one embodiment, the fragments may contain amino acid insertion and substitution.

Polyclonal antiserum from mammals such as rabbits immunized with the purified protein, or monoclonal antibodies may be used to probe a mammalian cDNA or genomic expression library, such as lambda gt11 library, to obtain the appropriate coding sequence for other members of the protein family. The cloned cDNA sequence may be expressed as a fusion protein, expressed using its own control sequences, or expressed by constructs using control sequences appropriate to the particular host used for expression of a protein.

Alternatively, a portion of coding sequences herein described may be synthesized and used as a probe to retrieve DNA encoding a member of the protein family from any organism. Oligomers, e.g., containing 18-20 nucleotides, may be prepared and used to screen genomic DNA or cDNA libraries to obtain hybridization under stringent conditions or conditions of sufficient stringency to eliminate an undue level of false positives.

Additionally, pairs of oligonucleotide primers may be prepared for use in a polymerase chain reaction (PCR) to clone a nucleic acid molecule. Various PCR formats are known in the art and may be adapted for use in isolating other nucleic acid molecules.

Selection of Test Compounds

Compounds that may be screened in accordance with the assays of the invention include, but are not limited to, libraries of known compounds, including natural products, such as plant or animal extracts. Also included are synthetic chemicals, biologically active materials, e.g., proteins, nucleic acids, and peptides, including, but not limited to, members of random peptide libraries and combinatorial chemistry derived molecular libraries made of D- or L-configuration amino acids, and phosphopeptides, antibodies (including, but not limited to, polyclonal, monoclonal, chimeric, human, anti-idiotypic or single chain antibodies, and Fab, F(ab′)₂ and Fab expression library fragments, and epitope-binding fragments thereof); and other organic and inorganic molecules.

In addition to the more traditional sources of test compounds, computer modeling and searching technologies permit the rational selection of test compounds by utilizing structural information from the ligand binding sites of proteins of the present invention.

Such rational selection of test compounds may decrease the number of test compounds that must be screened in order to identify a therapeutic compound. Knowledge of the protein sequences of the present invention may allow for generation of models of their binding sites that may be used to screen for potential ligands. This process may be accomplished in manners known in the art. A preferred approach involves generating a sequence alignment of the protein sequence to a template (derived from the crystal structures or NMR-based model of a similar protein(s), conversion of the amino acid structures and refining the model by molecular mechanics and visual examination. If a strong sequence alignment cannot be obtained then a model may also be generated by building models of the hydrophobic helices. Mutational data that point towards contact residues may also be used to position the helices relative to each other so that these contacts are achieved. During this process, docking of the known ligands into the binding site cavity within the helices may also be used to help position the helices by developing interactions that would stabilize the binding of the ligand. The model may be completed by refinement using molecular mechanics and loop building using standard homology modeling techniques. General information regarding modeling may be found in Schoneberg, T. et. al., Molecular and Cellular Endocrinology, 151:181-193 (1999), Flower, D., Biochim Biophys Acta, 1422, 207-234 (1999), and Sexton, P. M., Curr. Opin. Drug Discovery and Development, 2, 440-448 (1999).

Once the model is completed, it may be used in conjunction with one of several computer programs to narrow the number of compounds to be screened, e.g., the DOCK program (UCSF Molecular Design Institute, 533 Parnassus Ave, U-64, Box 0446, San Francisco, Calif. 94143-0446) or FLEXX (Tripos Inc., 1699 South Hanley Rd., St. Louis, Mo.). One may also screen databases of commercial and/or proprietary compounds for steric fit and rough electrostatic complementarity to the binding site.

Screening Assays to Identify Compounds

The finding that the genes of the present invention may play a role in regulating angiogenesis enables various methods of screening one or more compounds to identify compounds that may be used for prophylactic or therapeutic treatment of angiogenesis.

When selecting compounds useful for prevention or treatment, it may be preferable that the compounds be selective for proteins of invention. For initial screening, it may be preferred that the in vitro screen be carried out using a protein of the invention with an amino acid sequence that is, e.g., at least about 80% identical, preferably at least about 90% identical, and more preferably identical to a protein sequence described in Table 4. Preferably, the test compounds may be screened against a vertebrate protein, more preferably a human protein. For screening compounds it may be preferable to use the protein from the species in which treatment is contemplated.

The methods of the present invention may be amenable to high throughput applications; however, use of as few as one compound in the method is encompassed by the term “screening”. This in vitro screen provides a means by which to select a range of compounds, i.e., the compounds, which merit further investigation. For example, compounds that activate a protein of the invention at concentrations of less than 200 nM might be further tested in an animal model, whereas those above that threshold may not be further tested.

The assay systems described below may be formulated into kits comprising a protein of the invention or cells expressing a protein of the invention, which may be packaged in a variety of containers, e.g., vials, tubes microtitre plates, bottles and the like. Other reagents may be included with the kit, e.g., positive and negative control samples, and buffers.

In one embodiment, the invention provides a method to identify compounds that bind to a protein of the invention. Methods to determine binding of a compound to a protein are known in the art. The assays include incubating a protein of the invention with a labeled compound, known to bind to the protein, in the presence or absence of a test compound and determining the amount of bound labeled compound. The source of a protein of the invention may either be cells expressing the protein or some form of isolated protein. The labeled compound may be a known ligand or a ligand analog labeled such that it may be measured, preferably quantitatively (e.g., labeled with ¹²⁵I, ³⁵S-methionine, or a fluorescent tag, or peptide or a fluorescent protein fusions). Such methods of labeling are known in the art. Test compounds that bind to a protein of the invention may reduce ligand bound to the protein, thereby reducing the signal level compared to control samples. Variations of this technique have been described Keen, M., Radioligand Binding Methods for Membrane Preparations and Intact cells in Receptor Signal Transduction Protocols, R. A. J. Challis, (ed), Humana Press Inc., Totoway N.J. (1997).

In another embodiment, the invention provides methods for screening test compounds to identify compounds that activate a protein of the invention. The assays are cell-based; however, cell-free assays are known which are able to differentiate agonist and antagonist binding. Cell-based assays include contacting cells that express a protein of the invention with a test compound or a control substance and measuring activation of the protein by measuring the expression or activity of components of the affected signal transduction pathways. For example, after suitable incubation with a test compound, lysates of the cells may be prepared and assayed for transcription, translation, or modification of a protein, e.g., phosphorylation, or glycosylation, or induction of second messengers like cAMP. Many high-throughput assays are available that measure the response without the need of lysing the cells, e.g. calcium imaging.

In one embodiment, cAMP induction may be measured with the use of recombinant constructs containing the cAMP responsive element linked to any of a variety of reporter genes. Such reporter genes include, but are not limited to, chloramphenicol acetyltransferase (CAT), luciferase, glucuronide synthetase, growth hormone, fluorescent proteins, or alkaline phosphatase. Following exposure of the cells to a test compound, the level of reporter gene expression may be quantified to determine the test compound's ability to increase cAMP levels and thus determine a test compound's ability to activate a protein of the invention.

In another embodiment, specific phospho-tyrosine or phospho-serine antibodies may be utilized to measure the level of phosphorylation of a signaling protein after the exposure to a test compound, whereby a significant deviation in phosphorylation levels compared to control samples would indicate activation of a protein of the invention. In some instances, a protein's (for example receptor) responses subside, or become desensitized, after prolonged exposure to an agonist. In many cases, the protein of interest may be an enzyme and thus the effect of the binding of the test compounds could be measured in terms of changes in the enzymatic activity. Similarly, changes in intracellular calcium concentration [Ca²⁺] are generally indicative of activation of many signaling cascades.

Screening for Compounds Using Cell Culture, Tissue, and Animal Models of Angiogenesis

Compounds selected from one or more test compounds by an in vitro assay, as described above, may be further tested for their ability to regulate angiogenesis in various models of angiogenesis. Such models include both in vitro cell culture models and in vivo animal models. Such additional levels of screening are useful to further narrow the range of candidate compounds that merit additional investigation, e.g., clinical trials. Such model systems include, endothelial cell proliferation/survival assays, endothelial cell migration assays, tube-forming assays, microbead sprouting assay, rat aortic ring assay, chicken aortic arch assay, chicken (or other species) chorioallantoic membrane (CAM) assay, direct in vivo angiogenesis assay (DIVAA), examination of blood flow in the hind limb, heart or other organ in the presence and absence of vessel occlusion, examination of blood vessel growth and development in zebrafish, corneal angiogenesis assay or various modifications of these assays.

Transgenic Animals and Gene Therapy

Animals of many species, preferably vertebrates, including, but not limited to, mice, rats, rabbits, guinea pigs, pigs, goats, dogs, frogs, and non-human primates may be used to generate transgenic animals expressing the proteins of the invention. Several techniques are known in the art and may be used to introduce transgenes into animals to produce the founder lines of transgenic animals. Such techniques include, but are not limited to, pronuclear microinjection, retrovirus-mediated gene transfer into germ lines, gene targeting in embryonic stem cells, electroporation of embryos and sperm-mediated gene transfer.

The overall activity of a protein of the invention may be increased by overexpressing the gene for that protein. Overexpression will increase the total cellular protein activity, and thereby the function. The gene or genes of interest are inserted into a vector suitable for expression in the subject. These vectors include, but are not limited to, adenoviruses, adenovirus associated viruses, retroviruses and herpes virus vectors. Other techniques may also be used that introduce DNA into cells e.g., liposome, gold particles, or direct injection of the DNA expression vector (as a projectile), containing the gene of interest, into human tissue.

Treatment of Angiogenesis Regulated Disorders

The genes and proteins of the present invention (targets), and compounds that activate or inhibit them may be used in a method for the treatment of an angiogenesis regulated disorder. The term “regulate” is defined as in its accepted dictionary meanings. Thus, meaning of the term “regulate” includes, but is not limited to, up-regulate or down-regulate, to fix, to bring order or uniformity, to govern, or to direct by various means. In one aspect, a compound may be used in a method for the treatment of an “angiogenesis elevated disorder” or “angiogenesis reduced disorder”. As used herein, an “angiogenesis elevated disorder” is one that involves unwanted or elevated angiogenesis in the biological manifestation of the disease, disorder, and/or condition; in the biological cascade leading to the disorder; or as a symptom of the disorder. Similarly, the “angiogenesis reduced disorder” is one that involves wanted or reduced angiogenesis in the biological manifestations. This “involvement” of angiogenesis in an angiogenesis elevated/reduced disorder includes, but is not limited to, the following:

(1) The angiogenesis as a “cause” of the disorder or biological manifestation, whether the level of angiogenesis is elevated or reduced genetically, by infection, by autoimmunity, trauma, biomechanical causes, lifestyle, or by some other causes.

(2) The angiogenesis as part of the observable manifestation of the disease or disorder. That is, the disease or disorder is measurable in terms of the increased or reduced angiogenesis. From a clinical standpoint, angiogenesis indicates the disease; however, angiogenesis need not be the “hallmark” of the disease or disorder.

(3) The angiogenesis is part of the biochemical or cellular cascade that results in the disease or disorder. In this respect, regulation of angiogenesis may interrupt the cascade, and may control the disease. Non-limiting examples of angiogenesis regulated disorders that may be treated by the present invention are herein described below.

Targets and compounds of present invention may be used to treat diseases associated with retinal/choroidal neovascularization that include, but are not limited to, diabetic retinopathy, macular degeneration, sickle cell anemia, sarcoid, syphilis, pseudoxanthoma elasticum, Paget's disease, vein occlusion, artery occlusion, carotid obstructive disease, chronic uveitis/vitritis, mycobacterial infections, Lyme's disease, systemic lupus erythematosis, retinopathy of prematurity, Eales' disease, Behcet's disease, infections causing a retinitis or choroiditis, presumed ocular histoplasmosis, Best's disease, myopia, optic pits, Stargardt's disease, pars planitis, chronic retinal detachment, hyperviscosity syndromes, toxoplasmosis, trauma and post-laser complications. Other diseases include, but are not limited to, diseases associated with rubeosis (neovasculariation of the iris) and diseases caused by the abnormal proliferation of fibrovascular or fibrous tissue including all forms of proliferative vitreoretinopathy, whether or not associated with diabetes.

Targets and compounds of the present invention may be used to treat diseases associated with chronic inflammation. Diseases with symptoms of chronic inflammation include inflammatory bowel diseases such as Crohn's disease and ulcerative colitis, psoriasis, sarcoidosis and rheumatoid arthritis. Angiogenesis is a key element that these chronic inflammatory diseases have in common. The chronic inflammation depends on continuous formation of capillary sprouts to maintain an influx of inflammatory cells. The influx and presence of the inflammatory cells produce granulomas and thus, maintain the chronic inflammatory state. Inhibition of angiogenesis by the compositions and methods of the present invention would prevent the formation of the granulomas and alleviate the disease.

Crohn's disease and ulcerative colitis are characterized by chronic inflammation and angiogenesis at various sites in the gastrointestinal tract. Crohn's disease is characterized by chronic granulomatous inflammation throughout the gastrointestinal tract consisting of new capillary sprouts surrounded by a cylinder of inflammatory cells. Prevention of angiogenesis inhibits the formation of the sprouts and prevents the formation of granulomas. Crohn's disease occurs as a chronic transmural inflammatory disease that most commonly affects the distal ileum and colon but may also occur in any part of the gastrointestinal tract from the mouth to the anus and perianal area. Patients with Crohn's disease generally have chronic diarrhea associated with abdominal pain, fever, anorexia, weight loss and abdominal swelling. Ulcerative colitis is also a chronic, nonspecific, inflammatory and ulcerative disease arising in the colonic mucosa and is characterized by the presence of bloody diarrhea.

The inflammatory bowel diseases also show extraintestinal manifestations such as skin lesions. Such lesions are characterized by inflammation and angiogenesis and may occur at many sites other than the gastrointestinal tract. Targets and compounds of the present invention may be capable of treating these lesions by preventing the angiogenesis, thus reducing the influx of inflammatory cells and the lesion formation.

Sarcoidosis is another chronic inflammatory disease that is characterized as a multisystem granulomatous disorder. The granulomas of this disease may form anywhere in the body and thus the symptoms depend on the site of the granulomas and whether the disease active. The granulomas are created by the angiogenic capillary sprouts providing a constant supply of inflammatory cells.

Targets and compounds of the present invention may also treat the chronic inflammatory conditions associated with psoriasis. Psoriasis, a skin disease, is another chronic and recurrent disease that is characterized by papules and plaques of various sizes. Prevention of the formation of the new blood vessels necessary to maintain the characteristic lesions leads to relief from the symptoms.

Rheumatoid arthritis is a chronic inflammatory disease characterized by nonspecific inflammation of the peripheral joints. It is believed that the blood vessels in the synovial lining of the joints undergo angiogenesis. In addition to forming new vascular networks, the endothelial cells release factors and reactive oxygen species that lead to pannus growth and cartilage destruction. The factors involved in angiogenesis may actively contribute to, and help maintain, the chronically inflamed state of rheumatoid arthritis. Other diseases that may be treated according to the present invention are hemangiomas, Osler-Weber-Rendu disease, or hereditary hemorrhagic telangiectasia, solid or blood borne tumors and acquired immune deficiency syndrome.

The compounds of the present invention may also be used to treat an “angiogenesis reduced disorder”. As used herein, an “angiogenesis reduced disorder” is one that involves wanted or stimulated angiogenesis to treat a disease, disorder, and/or condition. The disorder is one characterized by tissue that is suffering from or be at risk of suffering from ischemic damage, infection, and/or poor healing, which results when the tissue is deprived of an adequate supply of oxygenated blood due to inadequate circulation. As used herein, “tissue” is used in the broadest sense, to include, but not limited to, the following: cardiac tissue, such as myocardium and cardiac ventricles; erectile tissue; skeletal muscle; neurological tissue, such as from the cerebellum; internal organs, such as the brain, heart, pancreas, liver, spleen, and lung; or generalized area of the body such as entire limbs, a foot, or distal appendages such as fingers or toes.

Methods of Vascularizing Ischemic Tissue

In one aspect, targets or compounds may be used in a method of vascularizing ischemic tissue. As used herein, “ischemic tissue,” means tissue that is deprived of adequate blood flow. Examples of ischemic tissue include, but are not limited to, tissue that lack adequate blood supply resulting from mycocardial and cerebral infarctions, mesenteric or limb ischemia, or the result of a vascular occlusion or stenosis. In one example, the interruption of the supply of oxygenated blood may be caused by a vascular occlusion. Such vascular occlusion may be caused by arteriosclerosis, trauma, surgical procedures, disease, and/or other etiologies. Standard routine techniques are available to determine if a tissue is at risk of suffering ischemic damage from undesirable vascular occlusion. For example, in myocardial disease these methods include a variety of imaging techniques (e.g., radiotracer methodologies, x-ray, and MRI) and physiological tests. Therefore, induction of angiogenesis is an effective means of preventing or attenuating ischemia in tissues affected by or at risk of being affected by a vascular occlusion. Further, the treatment of skeletal muscle and myocardial ischemia, stroke, coronary artery disease, peripheral vascular disease, coronary artery disease is fully contemplated.

A person skilled in the art of using standard techniques may measure the vascularization of tissue. Non-limiting examples of measuring vascularization in a subject include SPECT (single photon emission computed tomography); PET (positron emission tomography); MRI (magnetic resonance imaging); and combination thereof, by measuring blood flow to tissue before and after treatment. Angiography may be used as an assessment of macroscopic vascularity. Histologic evaluation may be used to quantify vascularity at the small vessel level. These and other techniques are discussed in Simons, et al., “Clinical trials in coronary angiogenesis,” Circulation, 102, 73-86 (2000).

Methods of Repairing Tissue

In one aspect, targets or compounds may be used in a method of repairing tissue. As used herein, “repairing tissue” means promoting tissue repair, regeneration, growth, and/or maintenance including, but not limited to, wound repair or tissue engineering. One skilled in the art appreciates that new blood vessel formation is required for tissue repair. In turn, tissue may be damaged by, including, but not limited to, traumatic injuries or conditions including arthritis, osteoporosis and other skeletal disorders, and burns. Tissue may also be damaged by injuries due to surgical procedures, irradiation, laceration, toxic chemicals, viral infection or bacterial infections, or burns. Tissue in need of repair also includes non-healing wounds. Examples of non-healing wounds include non-healing skin ulcers resulting from diabetic pathology; or fractures that do not heal readily.

Targets or compounds may also be used in tissue repair in the context of guided tissue regeneration (GTR) procedures. Such procedures are currently used by those skilled in the arts to accelerate wound healing following invasive surgical procedures.

Targets or compounds may be used in a method of promoting tissue repair characterized by enhanced tissue growth during the process of tissue engineering. As used herein, “tissue engineering” is defined as the creation, design, and fabrication of biological prosthetic devices, in combination with synthetic or natural materials, for the augmentation or replacement of body tissues and organs. Thus, the present methods may be used to augment the design and growth of human tissues outside the body for later implantation in the repair or replacement of diseased tissues. For example, compounds may be useful in promoting the growth of skin graft replacements that are used as a therapy in the treatment of burns.

In another aspect of tissue engineering, targets or compounds of the present invention may be included in cell-containing or cell-free devices that induce the regeneration of functional human tissues when implanted at a site that requires regeneration. As previously discussed, biomaterial-guided tissue regeneration may be used to promote bone regrowth in, for example, periodontal disease. Thus, targets or compounds may be used to promote the growth of reconstituted tissues assembled into three-dimensional configurations at the site of a wound or other tissue in need of such repair.

In another aspect of tissue engineering, targets or compounds may be included in external or internal devices containing human tissues designed to replace the function of diseased internal tissues. This approach involves isolating cells from the body, placing them with structural matrices, and implanting the new system inside the body or using the system outside the body. For example, targets or compounds may be included in a cell-lined vascular graft to promote the growth of the cells contained in the graft. It is envisioned that the methods of the invention may be used to augment tissue repair, regeneration and engineering in products such as cartilage and bone, central nervous system tissues, muscle, liver, and pancreatic islet (insulin-producing) cells.

Pharmaceutical Formulations and Methods for Use

Compounds identified by screening methods described herein may be administered to individuals to treat or to prevent diseases or disorders that are regulated by genes and proteins of the invention. The term “treatment” is used herein to mean that administration of a compound of the present invention mitigates a disease or a disorder in a host. Thus, the term “treatment” includes, preventing a disorder from occurring in a host, particularly when the host is predisposed to acquiring the disease, but has not yet been diagnosed with the disease; inhibiting the disorder; and/or alleviating or reversing the disorder. Insofar as the methods of the present invention are directed to preventing disorders, it is understood that the term “prevent” does not require that the disease state be completely thwarted. (See Webster's Ninth Collegiate Dictionary.) Rather, as used herein, the term preventing refers to the ability of the skilled artisan to identify a population that is susceptible to disorders, such that administration of the compounds of the present invention may occur prior to onset of a disease. The term does not imply that the disease state be completely avoided. The compounds identified by the screening methods of the present invention may be administered in conjunction with other compounds.

Safety and therapeutic efficacy of compounds identified may be determined by standard procedures using in vitro or in vivo technologies. Compounds that exhibit large therapeutic indices may be preferred, although compounds with lower therapeutic indices may be useful if the level of side effects is acceptable. The data obtained from the in vitro and in vivo toxicological and pharmacological techniques may be used to formulate the range of doses.

Effectiveness of a compound may further be assessed either in animal models or in clinical trials of patients with unregulated or improperly regulated angiogenesis.

As used herein, “pharmaceutically acceptable carrier” is intended to include all solvents, dispersion media, coatings, antibacterial and antifungal agents, isotonic and absorption delaying agents, and the like, compatible with pharmaceutical administration. The use of such media and agents for pharmaceutically active substances is known in the art. Except insofar as any conventional media or agent is incompatible with the active compound, such media may be used in the compositions of the invention. Supplementary active compounds may also be incorporated into the compositions. A pharmaceutical composition of the invention is formulated to be compatible with its intended route of administration. Examples of routes of administration include parenteral, e.g., intravenous, intradermal, subcutaneous, oral (e.g., inhalation), transdermal (topical), transmucosal, and rectal administration. Solutions or suspensions used for parenteral, intradermal, or subcutaneous application may include the following components: a sterile diluent such as water for injection, saline solution, fixed oils, polyethylene glycols, glycerine, propylene glycol or other synthetic solvents; antibacterial agents such as benzyl alcohol or methyl parabens; antioxidants such as ascorbic acid or sodium bisulfite; chelating agents such as ethylenediaminetetraacetic acid; buffers such as acetates, citrates or phosphates and agents for the adjustment of tonicity such as sodium chloride or dextrose. pH may be adjusted with acids or bases, such as hydrochloric acid or sodium hydroxide. The parenteral preparation may be enclosed in ampoules, disposable syringes or multiple dose vials made of glass or plastic.

Pharmaceutical compositions suitable for injectable use include sterile aqueous solutions (where water-soluble), or dispersions and sterile powders for the extemporaneous preparation of sterile injectable solutions or dispersion. For intravenous administration, suitable carriers include physiological saline, bacteriostatic water, Cremophor EL™ (BASF, Parsippany, N.J.) or phosphate buffered saline (PBS). In all cases, the composition must be sterile and should be fluid to the extent that easy syringability exists. It must be stable under the conditions of manufacture and storage and must be preserved against the contaminating action of microorganisms such as bacteria and fungi. The carrier may be a solvent or dispersion medium containing, for example, water, ethanol, polyol (for example, glycerol, propylene glycol, and liquid polyethylene glycol, and the like), and suitable mixtures thereof. The proper fluidity may be maintained, for example, by the use of a coating such as lecithin, by the maintenance of the required particle size in the case of dispersion and by the use of surfactants. Prevention of the action of microorganisms may be achieved by various antibacterial and antifungal agents, for example, parabens, chlorobutanol, phenol, ascorbic acid, thimerosal, and the like. In many cases, it will be preferable to include isotonic agents, for example, sugars, polyalcohols such as mannitol, sorbitol, and sodium chloride in the composition. Prolonged absorption of the injectable compositions may be brought about by including in the composition an agent that delays absorption, for example, aluminum monostearate and gelatin.

Sterile injectable solutions may be prepared by incorporating the active compound in the required amount in an appropriate solvent with one or a combination of ingredients enumerated above, as required, followed by filtered sterilization. Generally, dispersions are prepared by incorporating the active compound into a sterile vehicle that contains a basic dispersion medium and the required other ingredients. In the case of sterile powders for the preparation of sterile injectable solutions, the preferred methods of preparation are vacuum drying and freeze-drying which yields a powder of the active ingredient plus any additional desired ingredient from a previously sterile-filtered solution thereof.

Oral compositions generally include an inert diluent or an edible carrier. They may be enclosed in gelatin capsules or compressed into tablets. For oral administration, the agent may be contained in enteric forms to survive the stomach or further coated or mixed to be released in a particular region of the GI tract by known methods. For the purpose of oral therapeutic administration, the active compound may be incorporated with excipients and used in the form of tablets, troches, or capsules. Oral compositions may also be prepared using a fluid carrier for use as a mouthwash, wherein the compound in the fluid carrier is applied orally and swished and expectorated or swallowed. Pharmaceutically compatible binding agents, and/or adjuvant materials may be included as part of the composition. The tablets, pills, capsules, troches and the like may contain any of the following ingredients, or compounds of a similar nature: a binder such as microcrystalline cellulose, gum tragacanth or gelatin; an excipient such as starch or lactose, a disintegrating agent such as alginic acid, Primogel™, or corn starch; a lubricant such as magnesium stearate; a glidant such as colloidal silicon dioxide; a sweetening agent such as sucrose or saccharin; or a flavoring agent such as peppermint, methyl salicylate, or orange flavoring.

For administration by inhalation, the compounds are delivered in the form of an aerosol spray from pressured container or dispenser, which contains a suitable propellant, e.g., a gas such as carbon dioxide, or a nebulizer.

Systemic administration may also be by transmucosal or transdermal means. For transmucosal or transdermal administration, penetrants appropriate to the barrier to be permeated are used in the formulation. Such penetrants are generally known in the art, and include, for example, for transmucosal administration, detergents, bile salts, and fusidic acid derivatives. Transmucosal administration may be accomplished using nasal sprays or suppositories. For transdermal administration, the active compounds are formulated into ointments, salves, gels, or creams as generally known in the art.

The compounds may also be prepared in the form of suppositories (e.g., with conventional suppository bases such as cocoa butter and other glycerides) or retention enemas for rectal delivery.

In one embodiment, the active compounds are prepared with carriers that will protect the compound against rapid elimination from the body, such as a controlled release formulation, including implants and microencapsulated delivery systems. Biodegradable, biocompatible polymers may be used, such as ethylene vinyl acetate, polyanhydrides, polyglycolic acid, collagen, polyorthoesters, and polylactic acid. Methods for preparation of such formulations will be apparent to those skilled in the art. The materials may also be obtained commercially from Alza Corporation and Nova Pharmaceuticals, Inc. Liposomal suspensions (including liposomes targeted to infected cells with monoclonal antibodies to viral antigens) may also be used as pharmaceutically acceptable carriers. These may be prepared according to methods known to those skilled in the art, for example, as described in U.S. Pat. No. 4,522,811.

It is especially advantageous to formulate oral or parenteral compositions in dosage unit form for ease of administration and uniformity of dosage. “Dosage unit form” as used herein refers to physically discrete units suited as unitary dosages for the subject to be treated, each unit containing a predetermined quantity of active compound calculated to produce the desired therapeutic effect in association with the required pharmaceutical carrier. The specification for the dosage unit forms are dictated by and are directly dependent on the unique characteristics of the active compound and the particular therapeutic effect to be achieved, and the limitations inherent in the art of compounding such an active compound for the treatment of individuals.

Diagnostic Uses

As described above, the genes and gene expression information provided in Table 1 and 2 may be used as diagnostic markers for the prediction or identification of the disease state of a sample tissue. For instance, a tissue sample may be assayed by any of the methods described above, and the expression levels for a gene or member of a gene family from Table 1 may be compared to the expression levels found in normal subject. The expression level may also be compared to the expression levels observed in sample tissues exhibiting a similar disease state, which may aid in its diagnosis. The comparison of expression data, as well as available sequences or other information may be done by researcher or diagnostician or may be done with the aid of a computer and databases as described above. Such methods may be used to diagnose or identify conditions characterized by abnormal expression of the genes that are described in Table 1.

The methods of the present invention may be particularly useful in diagnosing or monitoring effectiveness of treatment regimen. Compounds that modulate the expression of one or more genes or gene families or proteins identified in Table 4 and/or modulate the activity of one or more of the proteins encoded by one or more of the genes or members of a gene family identified in Table 4 will be useful in diagnosis, monitoring, and evaluation of patient responses to treatment regimen.

EXAMPLES Example 1 Identification of Genes that are Differentially Regulated in the Rat Cornea Model of Angiogenesis

The cornea has been widely used in the study of experimental angiogenesis because of the ease with which new blood vessels may be induced and studied in this normally transparent and avascular tissue. Corneal cauterization of anesthetized rats using silver nitrate stimulates a reproducible angiogenic response (Burger. P. C., et al., Lab Invest 48:169-180 (1983)). New blood vessels arise predominantly from limbal blood vessels beginning at day 1 post-cautery and invade the corneal stroma. By day 7 numerous vessels have reached the site of cauterization. The initial angiogenic response is followed by vessel pruning and remodeling. After euthanasia, cornea-scleral tissue samples, including the limbic vessels, are collected and flash frozen in liquid nitrogen on days 0, 1, 2, 4, 7, 15, and 38. After euthanasia, cornea samples dissected to exclude the limbal vessels are collected and flash frozen in liquid nitrogen on days 0, 4, 7, and 15. Six replicate samples are used for each experimental condition at the indicated time points.

GeneChip Probe Preparation

Frozen corneal tissues from rats are homogenized in Trizol (Life Technologies, Rockville, Md.) using Tungsten Carbide Beads (Qiagen, Chatsworth, Calif.) with shaking in Mixer Mill (Qiagen). RNA samples are prepared according to Affymetrix (Santa Clara, Calif.) recommendations. Briefly, total RNA is prepared with the use of Trizol reagent (Life Technologies). The RNA is purified with an RNeasy Mini Kit (Qiagen). Reverse transcription is performed on 10 μg of total RNA with the use of SuperScript II Reverse Transcriptase (Life Technolohies) and a T7-(dT)₂₄ primer. Second strand DNA is synthesized with T4 DNA polymerase. The double stranded cDNA is extracted, and recovered by ethanol precipitation. The RNA Transcript Labeling Kit (Enzo Diagnostics, Farmingdale, N.Y.) is used for production of hybridizble biotin-labeled cRNA (complementary RNA) targets by in vitro transcription from T7 RNA polymerase promoters. The cDNA prepared from total RNA is used as a template in the presence of a mixture of unlabeled NTPs, and biotinylated CTP and UTP. In vitro transcription products are purified with an RNeasy Mini Kit to remove unincorporated NTPs and are fragmented to approximately 35 to 200 bases by incubation at 94° C. for 35 min in fragmentation buffer containing Tris-acetate, potassium acetate, and magnesium acetate. Fragmented cRNA is stored at −20° C. until the hybridization is performed.

Array Hybridization, Stain, and Scan

Biotinylated and fragmented cRNA is hybridized for 16 h at 45° C. to a set of rat RAE230A and RAE230B arrays (Affymetrix) in a GeneChip Hybridization Oven 640 (Affymetrix). A series of stringency washes and staining with streptavidin-conjugated phycoerythrin is then performed in a GeneChip Fluidic Station 400 (Affymetrix) according to the protocol recommended by Affymetrix. Probe arrays are then scanned with an Agilent GeneArray Scanner. The images are analyzed with the GeneChip Analysis software (Affymetrix).

Statistical Analysis of Affymetrix Microarray Experiments

The statistical analysis of the rat cornea samples is based on the Affy signal (MAS 5.0 algorithm). The data from chip RAE230A and RAE230B are rescaled (normalized) based on the 100 common genes from both sets. The first step in the analysis is to check data quality using exploratory statistical tools—summary statistics, pair plots, Principal Component Analysis (PCA). The results show that treatment and time effect are the major sources of data variability.

At this stage of data preprocessing, gene filtering is performed based on the minimum number of Affy Absent Calls per experimental condition. The Affy algorithm gives Absent Call for a gene on a chip if the gene expression level is very low compared to the background noise (i.e. the gene is not detected as expressed). To remove genes with no expression across all conditions, the minimum number of Absent Calls is determined across all experimental conditions. A gene is removed from further analysis if the Absent Call minimum is at least 4 (out of 6 replicates). Hence, the eliminated genes have at least 4 Absent Calls for each condition.

The next step in the analysis is to run ANalysis Of VAriance (ANOVA) statistical model to estimate Log Fold Change (LFC) and corresponding uncertainty measure, Standard Error (SE), for paired conditions of interest. The ratio of LFC to SE is investigated to determine the statistical significance of the differential gene expression between two compared experimental conditions. The statistical significance is summarized by a quantity called NLOGP (=−log₁₀[P-value]). The length of a gene list depends on desired Average False Positive Rate. An NLOGP threshold equal to −log₁₀ (Average False Positive Rate) is used to detect genes with statistically significant differential expression (corresponding NLOGP measure is greater then the NLOGP threshold). Using an NLOP=4 as a threshold, 7162 genes, or probe sets, are differentially regulated in at least one experimental condition and time point in the rat cornea model. These genes are further analyzed in Example 3.

Example 2 Identification of Genes that are Differentially Regulated in the Rat Aortic Ring Model of Angiogenesis

Various aspects of the angiogenesis process may be studied in vitro by culturing explants of rat aorta in gels of biological matrices (Nicosia, R. F. and Ottinetti, A., Lab Invest 63:115-122 (1990)). Angiogenesis in the serum-free rat aorta model is a self-limited process triggered by the injury of the dissection procedure. Endothelial cells sprout from the cut edges of the explant at days 3 to 4. During the second week of culture, microvessels elongate, branch, anastomose and eventually stop growing. Subsequent remodeling of the vascular outgrowth results in regression of the small branches which retract into the main stems of the larger vessels. Aortas are dissected from euthanized rats and cultured in a matrix of rat-tail collagen as previously described. In cases of denuded aortas, the endothelium is removed by gently rubbing the vessel between the thumb and forefinger, rinsing in medium, and subsequently placing the rings in the collagen matrix (Carr, A. N., et al., J. Physiology 534:357-366 (2001)). Intact and denuded aortas were cultured for a period of 0, 1, 2, 4, 7, 10, and 14 days. In total, 14 experimental conditions with 6 replicates were used in the study.

The steps of GeneChip probe preparation; array hybridization, stain, and scan; and statistical analysis of Affymetrix Microarray experiments are performed as described for Example 1 above.

Using an NLOP=4 as a threshold, 10171 genes, or probe sets, are differentially regulated in at least one experimental condition and time point in the rat aortic ring model. In comparing the normal aorta samples with the denuded aorta samples, 3475 genes, or probe sets, are found to be differentially regulated. These genes are further analyzed in Example 3.

Example 3 Identification of Genes Associated with Angiogenesis

Comparison of the genes that are differentially regulated in both the rat cornea and aortic ring models identifies 2274 common genes, or probe sets. A cluster analysis, based on the average Log Fold Change relative to cornea samples at Day 0 or the normal aortic ring samples at Day 0 for each experimental condition, are performed to group genes with similar expression profiles. Model-Based cluster analysis algorithm (“VII” model) gives 87 clusters. A total of 829 genes, or probe sets, in clusters with expression patterns consistent with the angiogenic process in both models are chosen for further analysis. The fold change of the expression values for the affected Affymetrix probe sets are detailed in Tables 1-3.

TABLE 1 Time course of gene expression in cornea only tissue Affymetrix Fold Change NLogP Fold Change NLogP Fold Change NLogP No. Probe Set ID Day 4 Day 4 Day 7 Day 7 Day 15 Day 15 1 1367453_at 1.32 6.2 1.26 4.5 1.09 0.9 2 1367463_at 1.26 5.5 1.22 4.6 −1.00 0 3 1367538_at −1.16 1.8 1.15 1.5 1.25 3.2 4 1367574_at 10.57 30.8 13.43 33.2 4.88 21.6 5 1367575_at 1.79 9 1.44 4.5 −1.08 0.4 6 1367579_s_at 1.31 5 1.19 2.6 −1.05 0.4 7 1367581_s_at 61.77 18.9 48.38 18.7 12.52 11.2 8 1367590_at 1.54 10 1.33 5.4 −1.05 0.4 9 1367594_at 1.98 8.8 3.56 19 2.87 15.4 10 1367619_at 1.07 0.4 1.44 4.9 1.26 2.3 11 1367627_at 16.14 14.3 20.94 15.9 6.66 8.6 12 1367646_at 1.46 10.1 1.53 11.8 1.21 3.6 13 1367652_at 11.29 15.9 19.83 20.1 6.00 10.9 14 1367658_at 1.02 0.1 1.25 1.4 −1.11 0.5 15 1367661_at 10.70 24 6.93 19.6 1.84 4.2 16 1367663_at 1.23 3.2 1.10 0.9 1.09 0.8 17 1367671_at 1.09 0.5 1.06 0.3 −1.02 0.1 18 1367682_at 2.21 9.4 2.98 14.3 2.74 13 19 1367693_at 1.95 13.4 1.93 13.1 1.26 2.8 20 1367701_at 4.15 16 6.87 22.1 2.16 7.1 21 1367716_at −1.52 4.6 −1.19 1.2 1.02 0.1 22 1367721_at 1.41 6.3 1.07 0.6 −1.02 0.2 23 1367722_at 1.39 3.1 2.39 13 2.91 16.6 24 1367732_at 1.26 4.2 1.14 1.7 −1.13 1.5 25 1367733_at 3.67 9.4 3.25 8.2 1.02 0 26 1367749_at 1.41 3.4 1.61 5.6 1.76 7.2 27 1367760_at 1.37 7 1.16 2.3 1.03 0.2 28 1367765_at 4.23 21.7 6.25 27.1 3.37 18.1 29 1367774_at 1.04 0.1 1.63 2.2 1.41 1.3 30 1367784_a_at 13.50 26.1 14.21 26.5 3.78 12.6 31 1367786_at 2.73 7.8 2.92 8.5 2.00 4.4 32 1367800_at 1.55 4.2 1.91 7.5 −1.08 0.3 33 1367801_at 1.09 0.8 1.35 5.4 1.13 1.3 34 1367807_at 1.01 0.1 1.21 2.3 1.43 6.2 35 1367814_at 1.14 0.4 1.19 0.5 1.24 0.8 36 1367823_at 1.65 6.6 2.29 13.2 2.49 14.8 37 1367846_at 8.46 18 11.65 20.9 4.02 10.7 38 1367850_at 36.87 28.5 30.53 27.2 8.63 17.2 39 1367859_at 2.00 5.8 3.41 13 3.29 12.5 40 1367881_at 1.42 6.2 1.48 7.2 1.23 2.7 41 1367902_at 2.04 5.9 3.93 14.2 2.24 6.5 42 1367905_at 6.90 19.3 7.24 19.8 2.17 5.9 43 1367914_at 2.92 18.1 3.83 22.8 2.11 11.7 44 1367930_at −2.31 6.2 −3.00 9.1 −2.03 4.8 45 1367940_at −1.62 5.9 −1.85 8.4 −1.19 1.3 46 1367942_at 3.18 13.5 2.82 11.7 1.74 4.8 47 1367948_a_at 1.25 1 1.81 4.5 1.14 0.5 48 1367959_a_at 2.38 1.9 12.03 9.1 5.24 5 49 1367973_at 134.66 21.9 99.03 20.5 15.74 11.2 50 1367974_at 1.80 9.6 1.49 5.4 1.32 3.2 51 1367998_at 4.50 13.6 2.70 7.8 −1.65 2.7 52 1368000_at 4.49 10.8 2.65 5.9 −1.05 0.1 53 1368049_at 1.14 0.9 1.23 1.6 1.18 1.2 54 1368052_at 1.75 4.9 1.25 1.2 1.13 0.5 55 1368057_at −1.74 7.3 −1.45 4 −1.11 0.6 56 1368078_at 46.82 21.5 54.49 22.4 2.02 2.1 57 1368079_at 1.60 3.2 −1.02 0.1 −1.20 0.8 58 1368089_at 3.86 15 4.59 17.2 2.31 8 59 1368097_a_at 2.99 7.2 3.21 7.9 1.46 1.4 60 1368103_at −1.07 0.4 −1.04 0.2 1.51 4.9 61 1368106_at −1.11 0.5 −1.27 1.9 −1.42 3.4 62 1368145_at 1.77 1.1 1.04 0 1.22 0.3 63 1368173_at 1.25 2.6 1.26 2.7 1.07 0.4 64 1368183_at 1.34 2.9 1.45 4.2 1.42 3.8 65 1368200_at −1.18 0.6 1.01 0 1.27 1.1 66 1368221_at −1.52 5.5 −1.35 3.4 1.13 0.9 67 1368223_at −2.20 5.8 −1.36 1.4 −1.24 0.8 68 1368259_at 3.82 17.3 2.37 10 1.59 4 69 1368280_at 3.64 13.7 4.46 16.3 1.82 4.6 70 1368281_at 1.41 2 1.51 2.7 1.95 5.7 71 1368322_at 1.55 2.8 1.78 4.2 1.80 4.4 72 1368332_at 13.64 24 9.46 20.7 2.44 6.4 73 1368347_at 24.06 11.7 97.46 18.1 17.87 10.2 74 1368370_at 3.29 12.6 4.20 15.8 2.14 6.8 75 1368393_at 38.80 27.3 69.83 30.8 10.58 17.8 76 1368395_at −2.66 10.1 −1.70 4.1 1.07 0.2 77 1368404_at 2.42 9.4 4.38 17.8 1.87 5.7 78 1368419_at 2.89 6.2 5.16 11.5 4.04 9.3 79 1368420_at 2.56 5.1 3.62 8 2.40 4.5 80 1368430_at 5.97 23.2 7.03 25.2 2.34 9.7 81 1368448_at 2.33 2.6 2.53 3 −1.07 0.1 82 1368464_at 38.35 26.8 61.16 29.6 17.09 21.1 83 1368474_at 9.83 25.5 11.19 26.8 8.97 24.5 84 1368519_at 31.62 15.6 35.15 16.1 6.91 7.2 85 1368612_at 1.09 0.6 −1.53 7.3 −1.58 8.1 86 1368655_at 18.35 23.4 10.64 19 1.88 3 87 1368657_at 33.14 26.6 20.80 23.3 4.21 9.7 88 1368731_at −1.16 0.4 −1.13 0.3 −1.19 0.5 89 1368771_at 1.83 3.6 2.73 7.8 2.01 4.5 90 1368813_at 8.57 17.1 11.29 19.5 3.27 7.9 91 1368851_at 14.82 27.5 18.69 29.5 7.44 20.8 92 1368885_at 2.06 8.2 2.60 12 1.37 2.3 93 1368989_at −2.14 2.4 −1.14 0.2 1.20 0.3 94 1369006_at 1.31 1.7 1.06 0.2 −1.04 0.1 95 1369044_a_at 3.84 10 3.52 9.2 1.76 2.8 96 1369065_a_at 1.51 6.2 1.46 5.9 1.60 8.1 97 1369087_at 1.74 5 1.90 6.2 1.33 1.8 98 1369166_at 26.44 11.2 12.49 7.8 2.27 1.4 99 1369269_at 1.18 0.9 1.62 4.5 1.24 1.3 100 1369294_at 1.17 0.2 1.78 1.1 −2.67 2.5 101 1369313_at 27.47 15.9 34.77 18.1 9.96 10.7 102 1369422_at 1.36 3.2 2.33 13.7 1.79 8.3 103 1369425_at 2.55 6.6 2.81 7.6 1.54 2 104 1369484_at 2.17 4.1 3.52 8.5 2.63 5.8 105 1369621_s_at 3.57 16 4.64 19.7 1.81 5.7 106 1369633_at 1.16 0.7 1.49 3.3 1.36 2.2 107 1369651_at 3.43 16.5 7.35 26.8 2.36 10.5 108 1369652_at 6.87 14.7 14.84 21.3 4.11 9.9 109 1369703_at 1.43 3.1 1.76 6.2 1.40 2.8 110 1369735_at −1.25 1.7 1.21 1.4 1.43 3.6 111 1369815_at 20.70 13.2 4.87 5.3 1.56 0.8 112 1369895_s_at 3.86 8.5 5.47 11.6 2.48 4.7 113 1369897_s_at 1.60 14.8 1.55 13.5 1.24 5.1 114 1369926_at 2.90 10.7 5.42 18.8 3.77 14.2 115 1369931_at 1.76 10.9 1.19 1.8 −1.17 1.6 116 1369947_at 3.22 13.8 4.64 18.9 4.38 18.1 117 1369950_at 1.39 5.3 1.52 7.7 1.15 1.5 118 1369953_a_at 1.10 0.9 −1.26 3.5 −1.19 2.2 119 1369955_at −2.03 11.5 1.26 2.2 1.92 10.3 120 1369956_at 3.94 27.3 3.32 24.2 2.11 14.6 121 1369958_at 1.43 4 1.86 9.2 1.10 0.6 122 1369960_at 1.16 0.5 1.09 0.2 1.27 1 123 1369961_at 2.97 18.3 4.04 23.6 2.23 12.8 124 1369973_at 9.63 24.5 9.37 24.3 3.17 11.6 125 1370007_at 1.46 3.8 2.16 10.8 2.12 10.5 126 1370023_at 2.75 15.7 4.70 24.5 1.45 3.9 127 1370048_at −2.36 11.2 −1.98 8.2 −1.00 0 128 1370051_at 2.04 5.4 1.15 0.5 −1.08 0.2 129 1370057_at 2.59 17 3.27 21.6 1.71 8.2 130 1370062_at 1.18 1.2 −1.29 2.2 −1.27 2 131 1370073_at 1.15 0.9 1.27 2.1 1.37 3.2 132 1370097_a_at 6.47 17.5 8.85 20.7 2.77 8.1 133 1370172_at 3.52 11 2.60 7.5 1.36 1.3 134 1370184_at 6.16 26.8 7.42 29.1 2.10 9.8 135 1370221_at 1.48 2.8 2.75 11.3 1.93 6.1 136 1370244_at 1.48 8.3 1.23 3.2 1.14 1.6 137 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1388878_at 1.40 2.5 1.32 1.9 1.33 1.9 646 1388889_at −1.62 9.3 −1.66 10 −1.06 0.4 647 1388926_at 1.50 3.4 1.55 3.9 1.62 4.5 648 1388945_at 3.90 18.5 3.39 16.4 1.93 7.2 649 1388955_at 1.94 17.8 2.28 22.3 1.58 11.3 650 1388970_at 9.50 16.9 12.43 19.1 3.59 8.2 651 1389018_at 1.99 4.4 1.39 1.4 −1.04 0.1 652 1389039_at 2.53 14.6 3.23 19.1 2.34 13.1 653 1389040_at −1.69 10.5 −1.32 4.1 −1.05 0.4 654 1389059_at −1.18 0.8 −1.07 0.2 1.46 2.8 655 1389103_at 1.14 1 1.08 0.5 −1.13 0.9 656 1389123_at 3.39 12.6 2.87 10.4 1.38 1.7 657 1389151_at 3.40 12.9 6.30 20.5 2.67 9.6 658 1389153_at −1.52 8 −1.64 10.2 −1.03 0.2 659 1389157_at 1.53 7.1 1.35 4.1 1.27 3 660 1389186_at 1.91 8.8 2.55 14.4 2.38 13.1 661 1389207_at 1.29 3.4 1.03 0.1 1.05 0.3 662 1389213_at 1.52 4.5 1.69 6.4 1.23 1.5 663 1389214_at 12.17 22.7 24.95 28.5 5.90 15.7 664 1389227_at 1.23 2.6 1.14 1.3 −1.09 0.7 665 1389244_x_at 29.30 21.2 41.03 23.3 12.76 15.6 666 1389255_at 7.22 16.2 9.60 18.8 3.49 9 667 1389297_at 1.64 4.2 1.31 1.6 1.16 0.7 668 1389324_at 3.58 14.8 4.61 18.2 1.86 5.5 669 1389341_at 8.09 17.5 12.18 21.2 3.44 9 670 1389373_at 1.11 1.2 1.20 2.6 1.06 0.5 671 1389464_at −6.15 3.7 −8.09 4.6 −1.85 0.7 672 1389470_at 6.27 8.3 4.34 6 3.46 4.6 673 1389476_at −1.40 5.5 −1.16 1.5 −1.12 1 674 1389478_at 1.55 5.5 1.88 9.3 1.48 4.6 675 1389483_at 3.02 16.4 5.63 25.8 2.79 14.2 676 1389533_at −1.08 0.2 3.74 13 3.09 10.6 677 1389546_at −1.06 0.4 1.10 0.7 1.20 1.9 678 1389573_at 1.81 5.9 1.44 2.8 1.82 6 679 1389590_at −2.12 9.2 −1.70 5.5 −1.55 4.2 680 1389611_at −1.47 3 −1.64 4.4 1.06 0.2 681 1389617_at 1.79 8.9 1.59 6.3 −1.09 0.5 682 1389651_at 4.28 11.3 4.71 12.2 1.28 0.8 683 1389787_at 1.46 4.5 2.08 11.7 1.39 3.6 684 1389789_at −1.42 4.4 −1.70 8.3 −1.23 2 685 1389836_a_at 1.13 0.5 1.56 3.3 1.93 6.1 686 1389883_at −1.37 4.8 −1.20 2.1 −1.05 0.3 687 1389966_at −1.69 8.7 1.02 0.1 1.60 7.4 688 1390031_at 1.54 5.6 1.38 3.6 1.14 0.9 689 1390112_at −2.17 4.8 −2.17 4.8 1.10 0.3 690 1390141_at 1.45 1.6 1.23 0.7 1.71 2.9 691 1390159_at 2.20 4.7 4.10 11 1.69 2.5 692 1390173_at 1.44 6 −1.04 0.2 1.00 0 693 1390300_at 1.95 4 2.44 6.3 1.42 1.5 694 1390306_at 2.97 12 3.34 13.7 1.94 6 695 1390311_at −1.10 0.8 −1.10 0.7 1.03 0.2 696 1390380_at −1.08 0.6 1.01 0 1.15 1.6 697 1390383_at 4.26 12.5 4.00 11.8 1.46 1.7 698 1390388_at 1.49 2.2 1.72 3.5 1.21 0.7 699 1390403_at 3.31 12.2 2.97 10.8 2.30 7.4 700 1390406_at 2.14 13.3 2.11 13 1.19 1.5 701 1390415_at 1.77 5.1 1.48 2.9 1.00 0 702 1390420_at 4.71 11.8 4.27 10.8 3.78 9.6 703 1390536_at −2.33 13.4 −2.01 10.4 −1.33 2.7 704 1390555_at 1.29 2.4 1.43 4 1.04 0.2 705 1390647_at 1.23 1.7 1.18 1.2 1.23 1.7 706 1390706_at 1.10 0.6 1.30 2.4 1.15 0.9 707 1390738_at 3.37 8 3.69 8.8 2.10 3.8 708 1390782_at 2.28 5.2 2.95 7.8 1.60 2.2 709 1390828_at −1.20 0.2 1.53 0.6 −1.78 1 710 1390832_at −1.50 4.4 −2.18 11.5 −1.29 2.2 711 1390835_at 1.92 3.9 1.40 1.4 1.09 0.2 712 1390846_at −1.46 5.3 1.01 0 1.68 8.4 713 1390914_at 2.98 15.3 4.12 20.4 1.78 6.5 714 1391167_at −1.06 0.4 −1.27 2.9 −1.04 0.3 715 1391421_at −1.09 0.5 1.14 1 1.12 0.7 716 1391435_at 12.23 24.5 18.75 28.1 13.30 25.2 717 1391442_at 1.30 1.4 1.97 6.1 1.43 2.3 718 1391450_at 2.56 8.4 5.77 18.3 2.80 9.5 719 1391458_at 5.00 15.4 1.87 4.1 1.23 0.8 720 1391503_at 2.16 6.5 2.71 9.4 1.44 2 721 1391505_x_at 3.46 5.6 1.95 2.2 1.04 0.1 722 1391607_at 1.78 7.7 −1.01 0 1.03 0.1 723 1391827_at 1.80 8.7 1.65 7 1.13 0.8 724 1391856_at 2.41 8.5 3.38 13.1 1.46 2.3 725 1391871_at 1.52 2.1 3.08 9.5 1.60 2.5 726 1391946_at 3.74 7.3 4.30 8.4 2.75 4.9 727 1392044_at 1.19 1.1 1.45 3.5 1.86 7.7 728 1392171_at 11.42 13.1 3.78 5.6 1.28 0.5 729 1392220_at 1.12 0.4 1.55 3.1 1.22 1 730 1392264_s_at 5.80 6.1 6.69 6.8 1.61 0.8 731 1392280_at 1.67 3.5 1.49 2.4 1.06 0.2 732 1392471_at −1.42 6.9 −1.41 6.6 −1.21 2.7 733 1392489_at 3.21 18.1 5.06 25.2 2.70 15 734 1392490_at −1.38 7.3 −1.34 6.2 1.04 0.3 735 1392497_at −1.55 6.2 −1.13 0.9 −1.06 0.3 736 1392578_at 3.43 12.4 6.19 19.5 4.60 16.1 737 1392597_at −1.10 0.6 −1.15 1 1.31 2.6 738 1392648_at 17.00 28.5 23.88 31.3 6.47 19.2 739 1392736_at 4.41 5.7 1.39 0.6 −1.05 0.1 740 1392784_at 1.16 0.9 1.26 1.8 1.58 5.1 741 1392786_at 5.95 16.2 8.42 19.7 2.89 8.3 742 1392905_at 6.05 11.5 9.93 15.5 3.76 7.5 743 1392917_at −1.29 5.2 −1.27 4.9 −1.06 0.6 744 1392934_at −1.05 0.5 1.14 2.4 1.20 3.9 745 1392948_at 1.07 0.1 −1.07 0.1 1.30 0.8 746 1392953_at 1.54 1.7 2.24 4.5 1.13 0.3 747 1392953_at 1.54 1.7 2.24 4.5 1.13 0.3 748 1392990_at 10.57 13.4 21.64 18.3 4.13 6.7 749 1393003_at 1.45 3 1.81 6 1.64 4.7 750 1393067_at 2.93 15.1 4.15 20.7 2.14 9.7 751 1393210_at −1.39 1 1.13 0.3 1.68 2.1 752 1393235_at 4.79 12 8.07 16.9 2.26 4.7 753 1393240_at 3.34 19.5 4.47 24.2 2.56 14.8 754 1393249_at 4.95 15.5 7.92 20.6 2.51 7.5 755 1393252_at 5.29 17.4 7.73 21.6 3.31 11.6 756 1393281_at 3.00 17.2 3.65 20.5 1.51 4.5 757 1393282_at −1.08 0.4 −1.31 2.4 −1.12 0.7 758 1393316_at 8.41 17.2 10.12 18.9 3.79 9.6 759 1393401_at 5.79 6.5 14.09 11.5 3.78 4.2 760 1393427_s_at 3.62 18.7 4.29 21.3 1.78 6.6 761 1393460_at 3.25 16.8 3.90 19.6 1.90 7.6 762 1393706_at 2.73 9.5 2.67 9.2 1.63 3.2 763 1393730_at 6.74 11.5 11.77 15.8 2.41 3.7 764 1393799_at 1.36 1.8 2.36 8.5 1.39 2 765 1393883_at 1.81 3.4 3.09 8.9 1.50 1.9 766 1393917_at 41.04 24.6 47.54 25.5 7.50 12.6 767 1393944_at 1.62 2.9 2.83 9.2 2.90 9.5 768 1393987_s_at 1.27 4.3 1.17 2.2 1.05 0.4 769 1394109_at 3.24 12.2 5.66 19.3 4.27 15.8 770 1394315_at 3.53 10.1 2.45 6.2 1.31 1 771 1394375_x_at 2.47 6.7 3.37 10.2 1.73 3.1 772 1394459_at −2.06 7.7 −1.99 7.2 1.13 0.5 773 1394473_at 1.86 5.5 1.98 6.3 1.36 1.9 774 1394483_at 3.58 6.9 4.59 8.9 2.37 3.8 775 1394490_at 1.82 2.9 1.90 3.2 3.16 7.8 776 1394597_at 1.08 0.6 1.10 0.8 1.37 4.7 777 1394612_at −1.73 5.6 −1.42 2.8 1.18 0.9 778 1395079_at 1.70 3.3 2.17 5.8 1.58 2.6 779 1395197_at 1.48 2.5 1.84 4.9 −1.07 0.2 780 1395265_at 1.29 1.9 1.53 4.3 1.48 3.8 781 1395357_at 1.77 3.5 2.10 5.1 1.70 3 782 1395508_at 1.46 3.2 1.33 2.1 1.11 0.5 783 1395635_at 2.09 4.5 2.50 6.3 1.37 1.2 784 1395663_at −1.28 4.1 −1.62 10.8 −1.18 2.2 785 1395730_at 1.76 5.5 1.87 6.4 1.31 1.8 786 1396055_at −1.39 1.9 1.35 1.6 2.01 6 787 1396208_at 2.72 8.3 2.27 6.2 1.43 1.8 788 1397272_at −1.51 3.9 −1.58 4.6 −1.06 0.2 789 1397317_at 7.02 13.2 12.73 18 3.21 6.5 790 1397644_at 1.48 2.7 2.55 10.1 −1.10 0.3 791 1397674_at 1.56 4.2 1.35 2.2 1.09 0.4 792 1397808_at 5.53 14.7 10.22 20.7 2.42 6 793 1398131_at 1.36 2.2 1.40 2.4 1.76 5.5 794 1398246_s_at 28.97 22.6 22.59 20.9 7.50 12.7 795 1398256_at 44.01 17.7 15.34 11.9 2.24 1.9 796 1398275_at 191.82 15.3 91.66 12.7 3.94 2.2 797 1398286_at −1.58 4.9 −1.44 3.4 −1.10 0.5 798 1398287_at 4.44 17.3 2.69 10.4 1.43 2.3 799 1398303_s_at 3.76 20.8 3.91 21.4 1.72 6.8 800 1398332_at 1.74 8.5 1.89 10.3 1.23 1.9 801 1398333_at 1.11 1.1 1.49 9 1.32 5.4 802 1398335_at 1.17 1.6 1.40 5.3 1.42 5.6 803 1398348_at 3.79 6.8 5.16 9.2 1.31 0.6 804 1398350_at 3.46 11.4 10.29 23.3 3.03 9.8 805 1398356_at 1.52 12.8 1.52 12.9 −1.01 0.1 806 1398380_at 3.61 18.3 3.64 18.4 1.72 5.9 807 1398390_at 1.54 1.1 2.32 3 2.63 3.7 808 1398397_at 2.67 10.9 4.06 16.9 1.98 6.5 809 1398597_at 1.75 4.9 2.27 8.5 2.06 7.1 810 1398626_s_at 1.31 9 1.36 10.8 −1.01 0.1 811 1398656_at −34.18 15.7 −25.57 14.2 −17.45 12.1 812 1398664_at 1.18 0.8 1.01 0 −1.00 0 813 1398727_at 2.09 3.6 3.06 6.8 1.98 3.2 814 1398757_at 2.92 21.2 3.27 23.4 1.69 9 815 1398765_at 1.36 9.8 1.53 15 1.08 1.2 816 1398828_at 4.91 24.7 7.41 30.1 2.35 12.5 817 1398829_at 3.68 27.9 5.25 33.7 2.08 14.8 818 1398833_at −1.11 1.3 1.07 0.8 1.20 3.3 819 1398840_at 1.80 8 2.19 11.8 1.52 4.9 820 1398851_at 1.02 0.2 −1.03 0.3 −1.10 1.2 821 1398857_at −1.06 0.5 −1.12 1.3 1.03 0.2 822 1398873_at 1.14 1.9 1.07 0.7 −1.15 2 823 1398893_at −1.02 0.1 1.21 3.5 1.03 0.3 824 1398962_at 1.42 6.4 1.35 5.2 1.06 0.5 825 1398970_at −1.15 1.7 −1.05 0.4 1.11 1.1 826 1398994_at 1.52 4.1 2.75 14.4 1.56 4.6 827 1399019_at 1.30 8.6 1.34 9.8 1.16 3.5 828 1399045_at 1.26 3 1.62 9 1.14 1.3 829 1399122_at −1.46 5.8 −1.26 2.8 −1.06 0.3

TABLE 2 Time course of gene expression in cornea-sclera tissue Fold Fold Fold Fold Affymetrix Fold Change NLogP Fold Change NLogP Change NLogP Change NLogP Change NLogP Change NLogP No. Probe Set ID Day 1 Day 1 Day 2 Day 2 Day 4 Day 4 Day 7 Day 7 Day 15 Day 15 Day 38 Day 38 1 1367453_at 1.18 2.8 1.26 4.5 1.11 1.3 1.13 1.8 1.00 0 −1.08 0.8 2 1367463_at 1.53 12.9 1.12 1.8 1.21 4 1.09 1.3 1.06 0.8 1.04 0.4 3 1367538_at −1.23 2.8 −1.20 2.3 −1.03 0.2 1.10 0.9 1.21 2.6 1.08 0.7 4 1367574_at 1.78 5.9 2.54 11.7 2.72 12.8 2.91 13.9 1.83 6.3 1.20 1 5 1367575_at 2.27 14.1 1.98 11.2 1.42 4.3 1.23 1.9 −1.21 1.7 −1.20 1.6 6 1367579_a_at 1.33 5.4 1.09 0.9 1.16 1.9 1.09 0.8 1.00 0 −1.07 0.6 7 1367581_a_at 3.31 3.8 5.30 6.2 8.78 9.1 4.80 5.7 1.86 1.4 1.84 1.3 8 1367590_at 1.92 16.7 1.38 6.5 1.33 5.3 1.22 3.1 −1.05 0.4 −1.15 1.8 9 1367594_at −1.17 0.9 1.38 2.8 2.31 11.6 2.76 14.8 2.40 12.3 1.12 0.6 10 1367619_at −1.39 4.2 −1.10 0.6 −1.01 0 1.17 1.3 1.23 2 1.10 0.7 11 1367627_at 1.80 1.4 1.75 1.4 2.12 2.1 1.96 1.8 −1.10 0.1 −1.25 0.4 12 1367646_at 1.20 3.4 1.46 10.1 1.44 9.5 1.27 5.3 1.21 3.6 −1.03 0.2 13 1367652_at 1.73 1.8 2.06 2.9 2.46 4 3.94 7.5 1.62 1.5 1.11 0.2 14 1367658_at −1.88 7.2 −1.33 2.1 1.16 0.8 1.09 0.4 1.02 0.1 −1.03 0.1 15 1367661_at 3.36 11.3 3.03 10 2.62 8.2 1.81 4 1.19 0.6 1.02 0.1 16 1367663_at −1.07 0.6 1.04 0.3 1.04 0.4 1.03 0.3 1.06 0.5 −1.04 0.3 17 1367671_at 1.97 11 1.35 3.4 1.17 1.2 1.05 0.2 1.02 0.1 −1.03 0.1 18 1367682_at −1.78 5.9 −1.37 2.3 −1.11 0.5 1.03 0.1 1.14 0.6 1.03 0.1 19 1367693_at 1.83 11.7 1.61 8.5 1.53 7.2 1.49 6.5 1.21 2 1.02 0.1 20 1367701_at −1.28 1.2 1.11 0.4 2.19 7.3 1.94 5.7 1.33 1.6 1.10 0.3 21 1367716_at −1.65 6 −1.46 3.9 −1.26 1.9 −1.16 1 1.09 0.5 1.05 0.2 22 1367721_at 1.90 14.7 1.37 5.4 1.24 3.1 1.07 0.6 −1.05 0.4 1.11 1 23 1367722_at −1.71 6.7 −1.18 1.1 1.20 1.2 1.57 5.2 1.87 8.4 1.25 1.7 24 1367732_at 1.20 3.1 1.12 1.4 1.18 2.6 1.13 1.6 −1.05 0.5 −1.08 0.9 25 1367733_at −1.37 1.1 −1.16 0.4 1.42 1.3 1.10 0.2 −1.50 1.6 −1.11 0.3 26 1367749_at −1.65 6.1 −1.12 0.6 1.23 1.6 1.38 3.1 1.44 3.7 1.00 0 27 1367760_at 1.49 9.7 1.30 5.2 1.31 5.3 1.22 3.4 1.04 0.3 −1.01 0.1 28 1367765_at −1.10 0.5 1.18 1 1.53 4.4 1.61 5.2 1.27 1.7 1.02 0.1 29 1367774_at 1.03 0.1 −1.12 0.3 −1.20 0.5 1.02 0 1.24 0.7 1.20 0.5 30 1367784_a_at −1.02 0.1 1.29 1.1 1.55 2.5 1.53 2.3 1.12 0.4 1.08 0.2 31 1367786_at 1.36 1.3 1.54 2.1 1.53 2.1 1.50 1.9 1.33 1.1 −1.01 0 32 1367800_at 1.94 7.7 1.55 4.1 1.86 7 2.23 10.1 1.18 0.9 1.54 4 33 1367801_at −1.10 0.9 −1.22 2.9 1.12 1.2 1.07 0.6 −1.03 0.2 −1.09 0.9 34 1367807_at −1.40 5.7 −1.00 0 1.26 3.2 1.34 4.6 1.47 6.9 −1.02 0.1 35 1367814_at −2.01 4.4 −1.77 3.2 −1.82 3.5 −1.58 2.3 −1.33 1.1 −1.08 0.2 36 1367823_at −1.49 4.7 −1.36 3.1 1.07 0.3 1.25 1.9 1.51 4.8 1.16 1.1 37 1367846_at 2.57 6.7 2.45 6.2 1.84 3.4 1.52 1.9 1.15 0.4 −1.02 0.1 38 1367850_at 6.93 15.2 7.91 16.4 7.28 15.7 5.61 13.2 1.98 3.5 1.92 3.2 39 1367859_at −3.18 12.1 −2.29 7.6 −1.17 0.6 −1.28 1.2 −1.02 0.1 −1.09 0.3 40 1367881_at 1.57 8.8 1.29 3.7 1.43 6.3 1.37 5.2 1.17 1.8 1.01 0.1 41 1367902_at −1.43 2 1.16 0.5 2.21 6.8 2.27 7.2 1.55 2.8 1.40 1.9 42 1367905_at 7.88 20.7 5.22 16.3 3.03 9.8 2.77 8.7 1.20 0.7 1.24 0.8 43 1367914_at 2.14 12 1.92 9.8 1.76 8 1.70 7.3 1.57 5.7 −1.04 0.2 44 1367930_at −1.05 0.1 −1.58 2.4 −1.55 2.3 −1.90 4.1 −1.37 1.4 −1.23 0.8 45 1367940_at −1.19 1.2 −1.12 0.6 −1.10 0.6 −1.14 0.8 −1.00 0 1.22 1.5 46 1367942_at 2.22 8.2 3.02 12.8 2.03 6.9 2.19 8 1.47 2.7 −1.00 0 47 1367948_a_at −1.50 2.5 −1.30 1.3 1.39 1.8 1.47 2.3 1.17 0.6 1.15 0.5 48 1367959_a_at −2.48 2 −1.24 0.3 1.36 0.4 1.82 1.1 1.68 0.9 −1.20 0.2 49 1367973_at 98.34 20.5 49.43 17.2 40.70 16.2 21.22 12.8 8.89 8.2 2.81 2.6 50 1367974_at 1.09 0.6 1.11 0.7 1.24 2.1 1.12 0.8 1.11 0.7 1.10 0.6 51 1367998_at 5.57 15.9 6.12 16.9 5.18 15.1 3.32 10.1 −1.43 1.6 −2.05 4.8 52 1368000_at 2.74 6.1 3.46 8.3 4.79 11.5 3.74 9.1 −1.23 0.6 −2.25 4.4 53 1368049_at 1.55 5.2 1.00 0 1.18 1.2 1.11 0.6 −1.07 0.4 −1.06 0.3 54 1368052_at −1.65 4.2 1.14 0.6 1.31 1.6 −1.10 0.4 −1.11 0.4 1.18 0.8 55 1368057_at −1.62 6 −1.31 2.4 −1.30 2.3 −1.25 1.8 −1.24 1.7 1.05 0.2 56 1368078_at 2.69 3.5 2.28 2.6 4.51 6.6 3.97 5.8 1.03 0 1.08 0.1 57 1368079_at 1.74 4.1 1.78 4.4 1.16 0.6 −1.18 0.7 −1.38 1.8 −1.41 2 58 1368089_at −1.57 3.1 −1.14 0.5 1.87 5.2 1.71 4.1 1.14 0.5 1.21 0.9 59 1368097_a_at −1.48 1.5 −1.43 1.3 −1.05 0.1 1.04 0.1 −1.01 0 1.08 0.2 60 1368103_at −1.23 1.7 1.03 0.2 −1.00 0 1.06 0.3 1.25 1.9 1.06 0.3 61 1368106_at −1.18 1 −1.07 0.3 1.12 0.6 −1.06 0.2 −1.12 0.6 −1.12 0.6 62 1368145_at −2.64 2.4 −1.91 1.3 −2.44 2.1 −2.16 1.7 −1.33 0.4 −1.18 0.2 63 1368173_at 2.10 14.5 1.25 2.6 1.24 2.4 1.13 1 1.03 0.2 1.06 0.4 64 1368183_at −1.39 3.5 −1.14 0.9 −1.03 0.1 1.18 1.2 1.00 0 1.08 0.4 65 1368200_at −1.30 1.3 1.04 0.1 1.04 0.1 1.16 0.6 1.13 0.4 1.30 1.3 66 1368221_at −1.53 5.7 −1.53 5.6 −1.32 3 −1.08 0.5 1.19 1.4 1.03 0.1 67 1368223_at 2.43 7 1.43 1.7 1.22 0.7 1.62 2.7 1.46 1.9 1.47 1.9 68 1368259_at 3.63 16.5 2.39 10.1 2.13 8.3 1.67 4.7 1.10 0.4 1.21 1.1 69 1368280_at 1.79 4.4 2.52 8.8 2.26 7.3 2.77 10 1.35 1.6 1.00 0 70 1368281_at −1.57 3.1 −1.32 1.5 1.49 2.6 1.45 2.3 1.23 0.9 −1.14 0.5 71 1368322_at −1.15 0.5 −1.06 0.2 −1.03 0.1 1.22 0.8 1.10 0.3 −1.02 0.1 72 1368332_at 2.06 4.6 4.21 12.4 3.61 10.7 2.85 8.1 1.18 0.5 −1.46 1.7 73 1368347_at −1.30 0.3 1.46 0.5 6.29 5.3 13.07 8.7 2.55 1.9 1.13 0.1 74 1368370_at 1.77 4.4 1.70 3.9 2.17 7 2.70 9.9 1.58 3.1 1.28 1.2 75 1368393_at 2.07 3.8 2.05 3.7 5.34 12.6 5.47 12.8 1.52 1.6 1.52 1.6 76 1368395_at −2.40 8.7 −3.11 12.3 −2.33 8.2 −1.86 5.2 1.01 0 1.11 0.4 77 1368404_at −1.04 0.1 1.26 1.3 1.85 5.5 2.37 9 1.37 2 1.16 0.6 78 1368419_at 1.14 0.3 1.19 0.4 1.54 1.6 2.21 4 1.59 1.8 1.55 1.6 79 1368420_at 2.29 4.2 2.80 5.8 1.22 0.5 2.04 3.3 −1.14 0.3 −1.30 0.7 80 1368430_at 2.73 12.1 4.07 18.1 3.53 16 3.67 16.6 1.55 3.7 1.07 0.2 81 1368448_at −1.70 1.3 −1.44 0.8 1.11 0.2 −1.02 0 −1.30 0.5 −1.18 0.3 82 1368464_at 2.74 5.5 4.45 9.8 3.44 7.5 3.70 8.2 1.51 1.4 1.20 0.4 83 1368474_at 1.33 1.5 2.44 8.5 2.40 8.3 3.49 13.3 2.41 8.4 1.74 4.2 84 1368519_at 9.92 9.2 10.47 9.5 13.39 10.9 11.31 9.9 3.45 3.7 1.29 0.4 85 1368612_at 1.24 2.6 1.11 0.8 1.03 0.2 −1.30 3.6 −1.33 4.1 −1.28 3.2 86 1368655_at 5.79 13.5 5.23 12.5 4.30 10.6 3.04 7.2 1.28 0.7 1.03 0.1 87 1368657_at 6.38 13.6 5.27 11.8 5.89 12.8 3.64 8.4 1.63 1.9 1.65 2 88 1368731_at 1.58 1.8 2.50 5.1 1.38 1 1.44 1.2 −1.23 0.6 −1.02 0 89 1368771_at 1.79 3.5 1.47 1.8 1.74 3.2 2.46 6.7 1.51 2 1.28 1 90 1368813_at 6.74 14.9 5.23 12.5 4.04 10 4.59 11.3 2.02 3.6 2.05 3.8 91 1368851_at 1.35 1.5 1.34 1.4 2.09 5.7 1.96 5 1.52 2.4 1.22 0.8 92 1368885_at 1.44 2.9 1.61 4.4 2.21 9.3 1.98 7.6 1.19 0.9 1.10 0.4 93 1368989_at −2.16 2.4 −2.02 2.1 −1.55 1 −1.56 1.1 −1.17 0.3 1.13 0.2 94 1369006_at 1.81 5.9 1.32 1.9 1.14 0.6 1.25 1.3 −1.18 0.9 −1.08 0.3 95 1369044_a_at 2.80 6.9 2.34 5.2 2.61 6.2 2.59 6.1 1.44 1.4 1.32 0.9 96 1369065_a_at 1.19 1.7 −1.10 0.7 1.05 0.3 1.25 2.5 1.27 2.7 1.00 0 97 1369087_at −1.08 0.3 −1.04 0.1 1.11 0.5 1.22 1 1.12 0.5 −1.05 0.2 98 1369166_at 4.27 3.4 6.59 5 16.91 9.1 11.32 7.3 1.22 0.2 −1.62 0.7 99 1369269_at 1.25 1.4 1.03 0.1 1.24 1.3 1.20 1 1.09 0.4 1.06 0.2 100 1369294_at 5.45 5.9 4.71 5.2 4.06 4.4 3.15 3.2 1.33 0.4 −1.90 1.3 101 1369313_at 2.06 1.9 2.32 2.4 2.79 3.3 3.92 5.1 2.17 2.1 1.70 1.2 102 1369422_at −1.22 1.6 1.11 0.6 1.74 7.8 1.76 8 1.52 5.1 1.08 0.4 103 1369425_at −1.34 1.2 −1.08 0.2 1.86 3.8 1.93 4.1 1.30 1 −1.12 0.3 104 1369484_at −1.62 2 −1.12 0.3 −1.04 0.1 −1.07 0.2 −1.04 0.1 1.04 0.1 105 1369621_s_at 1.59 3.9 1.51 3.3 2.08 7.8 2.12 8 1.31 1.7 −1.04 0.1 106 1369633_at −4.01 18.5 −2.44 10.8 −1.23 1.2 −1.18 0.9 1.23 1.2 1.24 1.3 107 1369651_at −1.36 2.3 1.27 1.6 2.28 9.9 2.70 12.8 1.24 1.3 −1.06 0.3 108 1369652_at −1.25 0.7 1.70 2.5 3.26 8.3 3.69 9.5 1.75 2.7 1.13 0.3 109 1369703_at −1.33 2.2 −1.17 0.9 −1.13 0.6 −1.03 0.1 −1.01 0 −1.08 0.3 110 1369735_at −1.52 4.5 −1.38 3 1.05 0.2 1.10 0.5 1.24 1.7 1.14 0.8 111 1369815_at 15.61 11.7 16.28 11.9 12.62 10.5 2.56 2.4 1.44 0.6 1.05 0.1 112 1369895_s_at −1.26 0.7 −1.44 1.3 1.05 0.1 1.04 0.1 −1.11 0.2 −1.28 0.7 113 1369897_s_at 1.01 0.1 1.12 1.9 1.23 4.7 1.23 4.7 1.16 2.8 1.00 0 114 1369926_at −1.60 3.2 −1.68 3.7 1.21 0.8 1.68 3.7 1.67 3.6 1.56 2.9 115 1369931_at 2.58 20.1 2.14 15.7 1.56 7.8 1.27 3 −1.14 1.3 −1.24 2.6 116 1369947_at −2.35 9.2 −1.59 3.6 1.58 3.6 1.76 5 1.91 6.1 1.18 0.8 117 1369950_at 1.37 5 1.26 3.1 1.20 2.1 1.29 3.6 1.10 0.9 −1.10 0.8 118 1369953_s_at −1.58 9.3 −1.09 0.8 −1.14 1.5 −1.31 4.4 −1.20 2.4 −1.03 0.2 119 1369955_at −2.49 15.8 −1.60 6.5 −1.03 0.2 1.18 1.3 1.73 8.1 −1.20 1.5 120 1369956_at 2.26 16.2 2.21 15.7 2.05 13.9 1.76 10.3 1.31 3.5 1.05 0.3 121 1369958_at 1.18 1.2 1.37 3.3 1.72 7.6 1.78 8.3 1.25 2 1.25 2 122 1369960_at −2.01 5 −1.90 4.4 −1.39 1.6 −1.44 1.8 1.08 0.2 1.05 0.1 123 1369961_at 1.66 6.8 1.66 6.8 1.88 9.3 1.87 9.2 1.24 1.8 1.09 0.5 124 1369973_at 2.63 9.1 3.08 11.2 2.43 8.1 2.21 6.8 1.40 1.8 −1.04 0.1 125 1370007_at 1.58 5.1 1.42 3.4 1.37 2.9 1.45 3.7 1.80 7.5 1.04 0.2 126 1370023_at 1.33 2.6 1.33 2.5 2.07 10.4 2.42 13.3 1.28 2.1 −1.09 0.4 127 1370048_at −2.21 10.1 −1.59 4.6 −1.32 2.1 −1.44 3.1 −1.11 0.5 1.05 0.2 128 1370051_at 2.35 7.1 1.17 0.6 1.09 0.3 −1.19 0.7 −1.57 2.7 −1.84 4.3 129 1370057_at −1.07 0.4 1.09 0.5 1.28 2.5 1.66 7.5 1.09 0.5 −1.01 0 130 1370062_at 2.45 13.7 1.52 4.7 1.22 1.5 −1.17 1.1 −1.05 0.2 −1.20 1.3 131 1370073_at 1.45 4.1 1.32 2.6 1.07 0.3 1.25 1.9 1.24 1.8 −1.09 0.5 132 1370097_s_at 3.64 11.9 4.21 13.7 6.01 17.7 7.12 19.5 2.73 8.5 1.28 1 133 1370172_at 5.61 16.2 3.81 11.8 2.20 5.6 1.96 4.4 1.30 1 −1.03 0.1 134 1370184_at 2.44 12.5 2.29 11.3 2.94 15.8 3.00 16.1 1.46 3.6 1.10 0.5 135 1370221_at −1.09 0.3 −1.04 0.1 1.22 1 1.61 3.8 1.12 0.5 −1.09 0.3 136 1370244_at 1.30 4.6 1.75 13.4 1.40 6.7 1.30 4.6 1.25 3.5 1.11 1.1 137 1370248_at −1.72 4.9 −1.41 2.4 −1.20 0.9 −1.10 0.4 1.18 0.8 1.02 0.1 138 1370256_at 1.83 8.8 1.52 5.1 1.81 8.5 2.26 13.1 1.32 2.7 1.04 0.2 139 1370290_at 1.73 13.3 1.30 4.6 1.40 6.8 1.35 5.7 1.23 3.3 −1.06 0.5 140 1370301_at 1.12 0.6 1.43 3.4 2.22 11.3 2.12 10.3 1.77 7 1.10 0.5 141 1370309_s_at 1.33 3.6 1.10 0.7 1.14 1 1.05 0.3 −1.01 0 1.07 0.4 142 1370312_at −1.26 1.6 1.23 1.4 1.93 8.2 2.09 9.6 1.60 5 1.15 0.8 143 1370328_at −3.07 9.4 −2.71 7.9 −2.00 4.6 −1.70 3.1 −1.14 0.4 1.05 0.1 144 1370408_at 1.57 5 1.51 4.3 1.55 4.8 1.73 6.7 1.09 0.4 1.33 2.5 145 1370442_at 1.77 1.5 1.70 1.3 1.69 1.3 2.05 2.1 1.77 1.5 −1.03 0 146 1370570_at −1.25 1.5 1.07 0.3 1.61 4.8 1.80 6.6 1.37 2.6 1.05 0.2 147 1370613_s_at 2.44 3.4 3.04 4.7 2.66 3.9 1.70 1.5 −1.27 0.5 −2.52 3.6 148 1370624_at 2.88 6.9 1.99 3.6 2.00 3.6 1.80 2.8 1.12 0.3 1.15 0.4 149 1370633_at 58.54 10.6 49.53 10 31.09 8.4 5.26 2.8 1.29 0.2 −3.80 2 150 1370634_x_at 23.06 10.6 17.27 9.3 12.75 8 3.02 2.2 1.15 0.1 −1.08 0.1 151 1370642_s_at −1.43 2.5 1.06 0.2 2.04 7.1 2.97 12.8 2.54 10.4 1.52 3.1 152 1370693_s_at −1.75 4.5 −1.17 0.7 −1.24 1 −1.20 0.8 −1.06 0.2 −1.10 0.4 153 1370802_at −2.00 6.8 −1.40 2.3 −1.32 1.7 −1.24 1.2 1.17 0.7 1.19 0.8 154 1370809_at 1.14 0.8 −1.03 0.1 −1.03 0.1 1.02 0.1 −1.07 0.3 −1.21 1.4 155 1370828_at −1.27 0.6 1.24 0.5 1.21 0.5 1.45 1.2 1.02 0 1.19 0.4 156 1370838_s_at −1.53 8.8 −1.38 5.8 −1.39 6.1 −1.32 4.7 −1.03 0.2 1.00 0 157 1370845_at 1.04 0.1 1.11 0.4 1.22 1 1.07 0.2 1.10 0.4 −1.00 0 158 1370854_at −1.83 2.7 −1.22 0.5 −1.15 0.3 1.10 0.2 1.45 1.3 1.42 1.2 159 1370855_at −1.98 7.3 −1.63 4.4 −1.16 0.7 −1.16 0.7 1.29 1.6 1.30 1.6 160 1370862_at −2.30 15.4 −1.60 7.1 −1.11 0.8 1.05 0.3 1.20 1.7 1.13 0.9 161 1370892_at 1.03 0 1.23 0.4 2.20 2.4 2.76 3.6 1.58 1.1 1.28 0.5 162 1370905_at −1.47 6.1 −1.46 5.9 −1.11 0.8 −1.33 3.9 −1.18 1.7 −1.15 1.2 163 1370927_at −2.06 9.8 −1.11 0.6 1.37 2.8 1.47 3.8 1.86 7.9 1.31 2.2 164 1370950_at 1.31 2.4 1.08 0.4 1.52 4.9 1.72 7.2 1.40 3.5 1.43 3.8 165 1370954_at 1.58 2.8 1.46 2.1 1.32 1.3 1.71 3.6 1.83 4.3 1.05 0.1 166 1370956_at −1.57 12.2 −1.35 7 −1.04 0.4 −1.08 1 1.18 2.8 1.16 2.3 167 1370963_at 1.38 1.3 1.24 0.7 1.37 1.2 1.61 2.3 1.21 0.6 1.39 1.3 168 1371016_at 2.13 3.9 1.78 2.6 1.67 2.1 1.73 2.4 1.54 1.7 −1.08 0.2 169 1371037_at 1.70 4.1 2.51 9.3 3.48 13.9 3.68 14.7 1.99 6.2 −1.01 0 170 1371079_at 15.31 14.5 15.34 14.5 9.18 11.2 8.94 11 3.78 5.4 2.03 2 171 1371166_at 2.21 3 1.92 2.2 3.17 5.3 4.17 7.3 1.67 1.5 1.17 0.3 172 1371232_s_at 6.52 5.2 4.30 3.5 3.29 2.6 5.87 4.7 1.47 0.5 1.40 0.4 173 1371246_at 1.75 8.4 1.37 3.5 1.48 4.9 1.24 1.9 1.10 0.6 −1.11 0.7 174 1371250_at 2.50 6.5 3.39 9.8 3.80 11 3.51 10.1 1.76 3.1 1.20 0.6 175 1371320_at −1.58 14.5 −1.18 3.4 −1.08 1 −1.09 1.3 1.08 1.1 1.10 1.5 176 1371329_at 1.78 9.2 1.39 4 1.19 1.5 1.03 0.2 −1.16 1.2 −1.15 1 177 1371341_at 1.31 2.8 1.50 5.3 1.20 1.6 1.14 0.9 1.09 0.5 1.09 0.5 178 1371349_at −2.37 14.2 −1.71 7.5 1.04 0.2 1.13 0.8 1.39 3.6 −1.02 0.1 179 1371356_at −1.64 4.9 −1.94 7.5 −1.59 4.4 −1.32 2 1.05 0.2 1.05 0.2 180 1371360_at 2.23 9.3 2.17 8.9 2.18 9 1.51 3.4 1.06 0.2 1.07 0.3 181 1371369_at −2.54 14.4 −2.01 9.9 −1.01 0.1 1.19 1.2 1.49 4.4 −1.16 1 182 1371392_at 1.51 7 1.51 6.9 1.09 0.7 1.20 2 1.05 0.3 1.01 0 183 1371440_at 1.13 0.5 1.21 1 1.28 1.5 1.55 3.6 1.36 2.1 1.09 0.4 184 1371447_at −1.60 2.9 −1.61 3 −1.57 2.7 −1.75 3.8 −1.32 1.3 −1.15 0.5 185 1371487_at 1.07 0.6 1.26 3.4 1.24 3.2 1.19 2.3 1.00 0 −1.10 0.9 186 1371498_at 1.60 10.8 1.09 0.9 1.11 1.1 1.15 1.7 1.03 0.2 −1.11 1.1 187 1371507_at −1.54 7.8 −1.62 9.1 −1.23 2.6 −1.25 2.9 1.13 1.2 −1.06 0.4 188 1371525_at −1.02 0.1 1.04 0.2 1.10 0.7 1.28 2.7 1.06 0.3 1.01 0.1 189 1371541_at −3.14 9.5 −2.45 6.6 −1.51 2 −1.14 0.4 1.13 0.4 1.05 0.1 190 1371545_at 1.17 0.3 2.12 3.2 4.17 8.4 3.94 7.9 1.72 1.9 1.53 1.3 191 1371572_at −1.48 8.7 −1.17 2.2 −1.08 0.8 −1.11 1.2 1.03 0.2 −1.00 0 192 1371575_at 3.26 15.9 2.98 14.5 3.72 17.9 3.71 17.9 1.77 5.9 1.21 1.1 193 1371596_at 1.29 4.2 −1.03 0.2 1.05 0.3 1.03 0.2 1.04 0.3 1.02 0.1 194 1371600_at −1.14 0.7 1.01 0 1.32 2.3 1.49 4 1.35 2.6 1.13 0.7 195 1371602_at −1.74 9.2 −1.25 2.3 −1.02 0.1 −1.12 0.8 −1.07 0.5 −1.07 0.4 196 1371618_s_at 2.43 3.3 2.35 3.2 3.22 5.1 3.50 5.7 1.98 2.2 2.22 2.8 197 1371625_at −2.41 11.9 −1.83 7.1 −1.54 4.3 −1.76 6.4 −1.11 0.5 1.07 0.3 198 1371632_at −1.25 4.4 −1.19 2.8 −1.16 2.3 −1.33 6.2 −1.20 3.2 −1.03 0.3 199 1371641_at 1.49 7.1 1.16 1.6 1.11 1 1.11 0.9 1.03 0.2 −1.01 0.1 200 1371691_at 3.64 12.1 4.24 13.9 4.35 14.2 4.52 14.7 2.42 7.2 1.35 1.4 201 1371694_at 1.25 2.1 1.31 2.8 1.47 4.7 1.56 6 1.50 5.2 1.04 0.2 202 1371727_at 1.07 0.5 1.26 2.8 1.34 4.2 1.06 0.4 1.02 0.1 −1.04 0.3 203 1371790_at 1.54 6.2 1.30 2.9 1.19 1.6 1.06 0.4 1.02 0.1 1.21 1.7 204 1371824_at 2.13 6.2 1.31 1.3 1.45 2.1 1.28 1.1 1.16 0.6 −1.00 0 205 1371840_at 1.34 0.6 1.38 0.7 2.52 3.6 2.95 4.6 1.44 0.9 1.32 0.6 206 1371849_at −1.43 2.5 −1.45 2.6 −1.61 3.9 −1.54 3.3 −1.02 0.1 −1.16 0.7 207 1371894_at −1.20 2.7 1.12 1.2 1.27 4 1.32 5 1.21 2.9 1.11 1.2 208 1371924_at −2.59 15.4 −1.28 2.2 1.22 1.6 1.35 2.9 1.62 6.1 1.05 0.2 209 1371926_at 1.46 8.3 1.39 6.9 1.41 7.3 1.42 7.4 1.21 2.9 1.15 1.8 210 1371951_at −1.06 0.1 1.33 0.7 1.95 2.7 2.65 4.9 1.58 1.5 1.20 0.4 211 1371986_at −1.85 10.9 −1.76 9.8 −1.65 8.3 −1.33 3.6 −1.20 1.7 1.04 0.2 212 1371988_at 1.36 2 1.44 2.7 1.72 4.8 2.02 7.1 1.13 0.5 1.12 0.5 213 1371999_at 1.03 0.2 −1.30 4.3 −1.11 1 −1.16 1.8 1.07 0.6 1.15 1.6 214 1372005_at 1.06 0.2 1.22 0.9 1.39 1.7 1.40 1.8 1.40 1.9 1.08 0.3 215 1372006_at −1.36 2.2 1.05 0.2 1.81 6.2 2.32 10.2 1.29 1.7 −1.27 1.6 216 1372028_at 1.51 7.7 −1.09 0.7 1.09 0.8 1.15 1.4 1.25 2.9 1.04 0.2 217 1372031_at 3.04 12.9 2.64 10.8 3.19 13.6 3.21 13.7 2.06 7.2 1.13 0.5 218 1372050_at 1.36 2.4 1.50 3.8 1.54 4.1 1.84 7 1.50 3.7 1.16 0.8 219 1372068_at −1.47 6.2 −1.38 4.8 −1.25 2.7 −1.12 1 1.08 0.5 1.11 0.9 220 1372084_at −2.69 7.2 −1.16 0.5 1.35 1.2 1.77 3.1 1.35 1.1 1.07 0.2 221 1372084_at −2.69 7.2 −1.16 0.5 1.35 1.2 1.77 3.1 1.35 1.1 1.07 0.2 222 1372088_at −1.53 5.8 −1.42 4.2 −1.19 1.4 −1.12 0.8 1.12 0.7 −1.03 0.2 223 1372101_at 1.22 1.3 −1.04 0.1 1.63 5.4 1.60 5.1 1.29 2 1.24 1.5 224 1372104_at −1.32 2.3 −1.48 3.9 1.03 0.1 1.38 2.8 1.10 0.5 1.05 0.2 225 1372111_at −1.45 4.7 1.03 0.2 1.73 8.2 1.60 6.6 1.13 0.9 1.25 2.1 226 1372127_at 1.28 5.3 1.02 0.2 1.07 0.8 1.14 2 1.02 0.2 −1.03 0.3 227 1372136_at 1.30 8.9 1.26 7.3 1.41 12.6 1.27 7.8 −1.04 0.5 1.01 0.1 228 1372164_at 1.45 6.5 1.44 6.4 1.82 12.5 1.68 10.4 1.25 3 1.25 2.9 229 1372213_at −1.30 1.6 −1.15 0.6 1.53 3.4 1.71 4.8 −1.05 0.2 1.07 0.2 230 1372223_at −1.61 6.9 −1.49 5.3 −1.37 3.7 −1.40 4.2 −1.15 1.1 1.03 0.2 231 1372234_at −1.52 3.5 −1.24 1.3 1.07 0.3 1.27 1.5 1.25 1.4 1.11 0.5 232 1372251_at −1.22 5.4 −1.21 4.9 −1.12 2.2 −1.02 0.2 1.05 0.6 1.09 1.4 233 1372254_at 1.78 5.5 2.19 8.6 3.00 13.5 3.22 14.6 1.98 7.1 1.57 3.8 234 1372256_at 1.53 1.9 1.94 3.8 2.13 4.7 2.02 4.2 1.69 2.6 1.16 0.4 235 1372266_at −1.65 3.9 −1.68 4.1 −1.23 1 −1.13 0.5 1.01 0 1.11 0.4 236 1372294_at −1.48 3.5 1.15 0.7 2.39 11.4 2.83 14.2 1.87 7.2 1.06 0.2 237 1372311_at 1.25 3.3 1.31 4.4 1.28 3.8 1.24 3 1.08 0.6 −1.07 0.5 238 1372326_at 1.20 1 1.09 0.3 1.57 3.8 1.69 4.8 1.14 0.6 −1.07 0.2 239 1372410_at −1.14 0.7 1.02 0.1 1.47 3.2 1.61 4.4 1.31 1.8 −1.10 0.4 240 1372439_at 1.63 3.9 1.87 5.8 4.47 18.2 5.51 20.9 2.00 6.7 1.08 0.3 241 1372466_at 1.00 0 −1.02 0.1 1.41 5.7 1.43 6.1 1.42 6 1.19 2.1 242 1372518_at 1.49 3 1.51 3.2 1.36 2 1.86 5.9 1.02 0 1.13 0.6 243 1372549_at −1.05 0.3 1.19 1.4 1.47 4.7 1.49 5 −1.01 0 −1.16 1.1 244 1372569_at 2.48 15.5 2.31 14 2.48 15.4 2.41 14.9 1.31 2.7 1.06 0.3 245 1372579_at 2.28 4.7 1.92 3.3 2.34 4.9 2.28 4.7 1.36 1.1 −1.00 0 246 1372585_at −1.71 2.9 1.08 0.2 1.30 1 1.28 0.9 1.12 0.3 1.04 0.1 247 1372587_at −1.13 0.5 −1.06 0.2 1.77 4.5 1.74 4.3 1.36 1.7 1.05 0.1 248 1372593_at −1.34 3.6 −1.46 5.3 −1.41 4.6 −1.16 1.3 1.16 1.2 1.08 0.5 249 1372610_at −1.36 3.4 −1.09 0.5 1.06 0.3 1.30 2.7 1.52 5.4 1.12 0.8 250 1372613_at −3.28 9.9 −2.16 5.3 −1.18 0.5 −1.23 0.7 1.35 1.3 1.14 0.4 251 1372615_at −2.44 8.2 −1.77 4.2 1.08 0.3 1.06 0.2 1.31 1.3 1.19 0.7 252 1372638_at 1.10 0.6 1.27 2.1 1.62 6.3 1.44 4.2 1.14 0.9 1.05 0.3 253 1372727_at 1.20 0.9 1.32 1.6 1.91 6.1 1.78 5.1 1.32 1.6 1.12 0.5 254 1372729_at 2.45 8.7 1.75 4.3 1.87 5.2 1.71 4.1 1.09 0.3 1.04 0.1 255 1372761_at 1.21 0.5 1.63 2.2 2.29 5 2.34 5.1 1.57 1.9 1.47 1.5 256 1372769_at 1.34 4 1.28 3 1.17 1.5 1.18 1.6 1.14 1.1 −1.00 0 257 1372776_at 1.70 9.9 1.46 6.1 1.30 3.4 1.29 3.2 1.11 0.8 1.07 0.5 258 1372818_at −1.32 2.3 −1.14 0.7 1.35 2.5 1.52 4.3 1.44 3.4 1.28 1.8 259 1372835_at 1.05 0.2 −1.16 0.6 1.72 4 1.85 4.8 1.04 0.1 1.63 3.4 260 1372836_at 1.09 0.7 1.07 0.4 1.15 1.2 1.24 2.4 1.06 0.3 1.04 0.2 261 1372838_at −1.55 8.4 −1.52 7.9 −1.35 4.7 −1.17 1.8 −1.07 0.5 −1.10 0.9 262 1372844_at 1.31 1.6 1.54 3.2 2.28 8.5 1.91 6 1.23 1 −1.00 0 263 1372861_at −1.35 3.1 −1.08 0.5 1.20 1.4 1.25 2 1.11 0.6 −1.10 0.6 264 1372919_at 1.32 3.3 1.13 0.9 1.15 1.2 1.23 2.1 1.21 1.8 1.11 0.8 265 1372947_at −1.40 6.1 −1.22 2.8 −1.13 1.3 −1.06 0.5 1.04 0.3 −1.05 0.4 266 1373000_at −2.50 8.8 −1.13 0.5 1.63 3.5 2.63 9.5 3.10 11.8 1.69 3.8 267 1373062_at 2.09 5.4 1.49 2.1 1.75 3.5 2.62 8 1.54 2.3 1.22 0.7 268 1373079_at −1.61 3.6 −1.82 5.1 −1.32 1.6 −1.18 0.7 −1.03 0.1 1.11 0.4 269 1373102_at −1.17 0.7 1.24 1 1.62 3.6 1.60 3.5 1.10 0.4 −1.06 0.2 270 1373140_at 1.85 9.1 2.14 12.2 2.41 14.6 2.80 17.5 2.11 11.9 1.51 5 271 1373151_at −2.26 9.5 −1.45 2.9 1.07 0.3 1.11 0.5 1.16 0.8 1.19 0.9 272 1373180_at 1.04 0.2 1.16 1 1.20 1.3 1.28 2.1 1.12 0.7 1.10 0.5 273 1373181_at −1.27 1.5 −1.06 0.2 1.53 3.6 1.61 4.3 1.13 0.6 1.17 0.8 274 1373217_at −1.72 9.1 −1.31 3.2 −1.24 2.2 −1.16 1.3 −1.02 0.1 −1.01 0.1 275 1373222_at −1.43 4.2 −1.25 2 1.05 0.3 1.22 1.7 1.35 3.1 1.17 1.2 276 1373245_at 1.61 3.3 2.11 6.5 5.29 18.5 6.08 20.2 2.49 8.7 1.20 0.8 277 1373258_at −2.13 9.1 −1.47 3.3 −1.15 0.7 1.06 0.2 1.18 0.9 1.21 1.1 278 1373286_at 3.06 12 2.85 11 4.02 15.6 4.27 16.4 1.83 5 1.30 1.4 279 1373301_at −1.60 8.1 −1.43 5.4 −1.13 1 −1.08 0.6 1.04 0.3 1.06 0.4 280 1373310_at −1.34 2.5 −1.25 1.6 −1.42 3.2 −1.28 1.9 −1.04 0.2 −1.00 0 281 1373346_at −1.49 7.3 −1.04 0.3 1.12 1.1 1.15 1.4 1.18 1.8 1.16 1.5 282 1373363_at −1.13 0.5 1.01 0 1.37 2.1 1.65 4.3 1.44 2.6 1.22 1.1 283 1373374_at −1.67 9.1 −1.50 6.5 −1.36 4.3 −1.49 6.4 −1.03 0.1 1.05 0.3 284 1373379_at 1.25 4.9 1.16 2.5 1.25 4.9 1.13 2 1.04 0.4 1.06 0.7 285 1373401_at 3.34 4.9 4.09 6.2 6.01 8.8 10.75 12.8 2.84 3.9 1.21 0.3 286 1373415_at 1.22 1.2 1.15 0.7 1.31 1.9 1.40 2.6 1.28 1.6 1.03 0.1 287 1373463_at −2.62 15.3 −1.45 4 1.11 0.6 1.56 5.3 1.75 7.4 −1.15 0.9 288 1373466_at −1.58 7 −1.46 5.3 −1.47 5.4 −1.58 6.9 −1.25 2.3 −1.05 0.3 289 1373483_at −1.43 1.9 −1.07 0.2 1.53 2.4 1.62 2.9 1.29 1.1 1.16 0.5 290 1373487_at −1.72 3 −1.39 1.4 1.07 0.2 1.16 0.5 1.14 0.4 −1.14 0.4 291 1373488_at 1.23 2.9 1.10 0.9 1.20 2.3 1.13 1.3 1.00 0 1.14 1.4 292 1373515_at −1.47 4.4 −1.47 4.4 −1.38 3.3 −1.26 2 −1.13 0.8 −1.02 0.1 293 1373533_at −1.75 5 −1.41 2.3 −1.07 0.2 1.03 0.1 1.02 0.1 1.06 0.2 294 1373554_at 2.59 5.1 2.38 4.4 2.42 4.5 3.79 8.3 3.53 7.7 2.10 3.4 295 1373557_at 2.34 12.2 1.67 6 1.43 3.4 1.08 0.4 1.23 1.5 1.01 0.1 296 1373590_at 2.23 8.8 1.67 4.5 1.71 4.9 1.51 3.3 1.38 2.2 1.18 0.8 297 1373592_at −1.23 1 −1.09 0.3 1.52 3.1 1.44 2.5 1.03 0.1 1.14 0.6 298 1373599_at −1.60 4.6 −1.27 1.6 1.12 0.6 1.18 0.9 1.39 2.7 1.28 1.8 299 1373615_at 1.01 0 −1.10 0.3 1.34 1.4 1.56 2.6 1.05 0.1 1.08 0.2 300 1373628_at 1.09 0.3 1.12 0.3 1.67 3 2.07 5.3 2.32 6.5 1.17 0.5 301 1373661_a_at 4.70 10.8 7.00 14.4 8.08 15.7 9.02 16.6 3.01 6.7 2.08 3.3 302 1373666_at 1.13 1 1.16 1.2 1.21 1.9 1.49 5.8 −1.01 0 1.12 0.9 303 1373683_at 1.53 3.3 1.08 0.3 1.41 2.4 1.66 4.4 −1.03 0.1 −1.01 0 304 1373695_at −1.15 1.5 −1.19 2.1 −1.06 0.4 −1.12 1.2 −1.02 0.2 −1.00 0 305 1373696_at −2.89 5.3 −2.28 3.6 −1.43 1 −1.29 0.6 1.05 0.1 −1.06 0.1 306 1373740_at −5.03 7.6 −4.43 6.7 −2.74 3.7 −1.87 1.8 −1.04 0.1 1.34 0.6 307 1373751_at 1.51 3.7 1.78 6.2 1.67 5.2 1.85 6.8 1.29 1.8 −1.06 0.2 308 1373829_at −1.52 6.3 −1.64 8.1 −1.67 8.5 −1.59 7.4 −1.27 2.7 −1.04 0.2 309 1373847_at 1.16 0.7 1.28 1.4 2.14 7.8 2.47 10 1.78 5.2 1.40 2.3 310 1373874_at 1.12 0.9 −1.05 0.3 −1.08 0.5 −1.16 1.3 −1.07 0.4 1.02 0.1 311 1373881_at 1.15 2.2 1.33 6.3 1.37 7.3 1.37 7.4 1.40 8.2 1.13 1.7 312 1373911_at −2.10 3.5 1.54 1.6 2.34 4.6 3.81 9.1 1.84 2.8 −1.30 0.8 313 1373957_at −1.55 1.9 −1.94 3.7 −1.54 1.9 −1.09 0.2 1.08 0.2 −1.15 0.4 314 1373970_at 1.23 1 1.16 0.6 1.16 0.6 1.41 2.2 1.00 0 1.09 0.3 315 1374013_at −1.91 8.6 −1.33 2.4 1.37 2.9 1.77 7.1 2.06 9.9 1.23 1.5 316 1374034_at 2.22 12 1.79 7.8 1.83 8.2 1.24 1.7 1.39 3.2 1.33 2.6 317 1374057_at 1.14 0.5 1.11 0.4 1.58 3.2 1.93 5.6 1.21 0.8 −1.02 0.1 318 1374061_at 1.82 5.5 2.14 7.9 2.00 6.9 2.26 8.7 1.65 4.2 1.63 4 319 1374104_at −3.02 7.9 −1.76 2.9 −1.20 0.5 1.65 2.4 1.39 1.3 1.13 0.3 320 1374118_at 1.32 5.2 1.16 2 −1.01 0.1 1.02 0.2 −1.08 0.8 1.05 0.4 321 1374129_at −1.10 0.5 1.03 0.1 1.34 2.6 1.53 4.7 1.04 0.2 −1.06 0.3 322 1374134_at 1.58 5.7 1.44 4 1.81 8.3 1.83 8.6 1.36 3.1 1.09 0.5 323 1374171_at 1.02 0 1.28 0.4 1.78 1.4 1.69 1.2 1.34 0.5 1.18 0.3 324 1374172_at −2.29 9.3 −1.21 1 1.16 0.7 1.31 1.7 2.18 8.5 1.29 1.6 325 1374176_at −1.04 0.1 1.74 4.7 2.14 7.5 2.21 8 1.60 3.7 1.59 3.6 326 1374207_at 1.25 0.9 1.02 0 2.13 5.8 2.42 7.3 1.30 1.2 1.15 0.5 327 1374247_at 1.22 0.7 1.93 4 3.04 8.7 3.74 11 1.83 3.5 1.18 0.5 328 1374266_at −1.55 4.7 −1.32 2.3 −1.44 3.5 −1.69 6.1 −1.21 1.3 −1.20 1.2 329 1374273_at −1.51 5.7 −1.51 5.7 −1.60 6.9 −1.45 4.9 −1.05 0.3 1.11 0.8 330 1374276_at −1.49 2.4 −1.61 3.2 −1.38 1.7 −1.20 0.7 −1.34 1.5 −1.20 0.8 331 1374284_at 1.11 0.4 1.06 0.2 −1.30 1.3 −1.02 0 1.11 0.4 1.06 0.2 332 1374285_at −1.37 4.6 −1.60 8.3 −1.45 5.9 −1.21 2.1 1.04 0.2 1.12 0.9 333 1374306_at 1.76 10.4 1.48 6.1 1.36 4.3 1.39 4.7 1.07 0.5 1.24 2.5 334 1374320_at 1.18 0.5 1.02 0 −1.09 0.2 1.02 0.1 −1.77 3.1 −1.27 0.9 335 1374399_at 1.35 1.9 1.22 1 1.59 3.7 1.32 1.7 −1.09 0.3 1.05 0.2 336 1374474_at 1.43 7.6 1.36 6.2 1.30 4.9 1.29 4.6 1.01 0 −1.04 0.3 337 1374477_at 1.10 0.4 1.18 0.8 1.74 4.9 1.64 4.1 1.13 0.5 1.07 0.2 338 1374479_at −1.16 1.2 −1.33 3.3 −1.41 4.4 −1.47 5.3 −1.14 1 −1.01 0.1 339 1374529_at 2.16 8.2 2.00 7.1 2.17 8.3 2.67 11.4 3.20 14.2 1.69 4.6 340 1374531_at −1.32 1.5 1.02 0.1 −1.14 0.5 1.05 0.1 1.27 1.2 1.14 0.5 341 1374575_at −1.93 5.1 −1.63 3.2 −1.17 0.6 1.02 0.1 −1.11 0.4 −1.07 0.2 342 1374586_at −1.23 1.4 −1.28 1.9 −1.17 1 1.14 0.7 1.06 0.3 1.31 2.2 343 1374626_at 7.25 12.4 6.07 11 6.03 11 4.79 9.1 1.64 1.6 1.31 0.7 344 1374635_at −2.42 1.9 −1.84 1.1 −1.30 0.4 −1.01 0 1.03 0 1.12 0.1 345 1374678_at −1.09 0.4 −1.17 0.9 −1.62 4.9 −2.01 8.5 −1.26 1.6 −1.04 0.2 346 1374742_at −1.09 0.5 −1.25 1.7 −1.22 1.4 −1.06 0.3 −1.08 0.4 −1.79 7.5 347 1374771_at −1.22 1.2 −1.04 0.1 1.58 4.6 1.56 4.4 1.19 1 1.01 0 348 1374779_at 1.20 0.4 1.53 1.4 1.30 0.7 1.20 0.4 1.09 0.2 −1.19 0.4 349 1374816_at −1.85 10 −1.18 1.4 1.13 0.9 −1.04 0.2 −1.12 0.8 −1.16 1.2 350 1374849_at 1.06 0.2 1.21 0.6 1.10 0.3 1.43 1.5 1.00 0 −1.15 0.4 351 1374868_at −2.39 9.4 −2.37 9.3 −1.71 4.6 −1.20 0.9 1.24 1.1 1.08 0.3 352 1374897_at 1.80 9.6 1.30 2.9 1.27 2.5 1.10 0.6 1.02 0.1 −1.10 0.7 353 1374953_at 5.84 5 5.33 4.6 5.97 5 7.55 6.1 3.84 3.3 3.68 3.1 354 1375028_at 1.50 5.5 1.43 4.6 1.10 0.7 −1.30 2.9 −1.10 0.6 −1.19 1.5 355 1375051_at 2.50 11 1.75 5.5 1.81 5.9 1.72 5.2 1.09 0.4 −1.22 1.1 356 1375074_at −1.03 0.1 −1.15 0.8 1.27 1.7 1.26 1.6 1.15 0.8 1.06 0.2 357 1375138_at −2.44 6.9 −2.46 7 −2.09 5.2 −1.93 4.4 −1.06 0.2 1.04 0.1 358 1375144_at −1.64 5.2 −1.26 1.6 1.21 1.2 1.28 1.7 1.59 4.7 1.24 1.5 359 1375267_at 1.03 0.1 1.06 0.2 1.95 7.1 2.15 8.6 1.76 5.5 −1.01 0 360 1375270_at −1.63 7.9 −1.53 6.4 −1.20 1.7 −1.34 3.7 −1.05 0.3 −1.11 0.8 361 1375277_at 1.03 0.1 −1.21 1.4 −1.08 0.4 −1.22 1.5 −1.06 0.3 −1.28 2 362 1375337_at 1.76 5.7 1.76 5.8 1.63 4.6 1.89 6.9 1.11 0.5 −1.00 0 363 1375368_at 1.46 5.4 1.15 1.1 1.18 1.6 1.12 0.8 1.09 0.6 1.09 0.6 364 1375369_at 1.28 3.2 1.30 3.4 1.46 6.1 1.48 6.4 1.22 2.3 1.21 2.1 365 1375377_at 1.24 1.5 1.17 1 −1.12 0.6 1.17 1 −1.07 0.3 −1.04 0.1 366 1375420_at 1.21 0.7 1.57 2.5 3.13 9.9 2.91 9 1.18 0.6 1.01 0 367 1375424_at 1.34 4.4 1.30 3.8 1.30 3.8 1.25 2.9 −1.08 0.6 −1.03 0.2 368 1375463_at −1.17 1.7 −1.02 0.1 1.19 2 1.09 0.8 1.16 1.6 1.09 0.8 369 1375473_at 1.03 0.1 −1.13 0.6 1.15 0.7 1.42 2.7 1.26 1.4 −1.01 0 370 1375657_at 1.40 3.3 1.34 2.6 1.66 6.2 1.64 5.9 1.18 1.1 1.11 0.6 371 1375719_s_at −1.15 0.2 1.11 0.1 3.59 4.1 3.32 3.7 2.22 2 1.03 0 372 1375721_at −1.15 0.9 −1.05 0.2 1.06 0.3 1.06 0.3 1.13 0.7 1.22 1.5 373 1375739_at 1.23 2.7 1.26 3.2 1.51 7.6 1.38 5.3 1.02 0.1 −1.02 0.1 374 1375862_at −1.46 2 1.04 0.1 1.94 4.8 2.73 9 1.63 3 −1.09 0.3 375 1375898_at −1.13 0.7 −1.14 0.8 1.10 0.5 1.14 0.8 1.05 0.2 1.19 1.2 376 1375951_at 1.06 0.2 −1.23 0.8 1.15 0.5 1.24 0.9 1.37 1.5 1.44 1.9 377 1376004_at −1.16 1.5 −1.41 5.5 −1.21 2.2 −1.03 0.2 1.16 1.5 1.17 1.6 378 1376045_at 1.40 2.7 1.40 2.7 1.92 7.4 2.28 10.3 1.70 5.4 1.40 2.7 379 1376055_at 1.51 4.8 1.33 2.8 1.23 1.6 1.08 0.4 1.25 1.8 −1.13 0.8 380 1376099_at −1.97 7.6 −2.02 8 −1.20 1.1 1.06 0.2 1.77 6 −1.35 2.2 381 1376106_at −1.08 0.2 1.20 0.6 1.45 1.7 1.95 4.2 1.50 1.9 1.63 2.6 382 1376128_at −2.18 12.8 −1.83 9.1 −1.42 4 −1.51 5.2 −1.04 0.2 −1.05 0.2 383 1376182_at −1.30 2.7 −1.23 1.9 −1.14 0.9 1.09 0.5 1.15 1.1 1.07 0.4 384 1376265_at 1.89 6.8 1.63 4.5 1.44 2.9 1.62 4.4 1.28 1.6 1.09 0.4 385 1376570_at 1.58 9.9 1.34 5.2 1.27 3.8 1.19 2.3 1.18 2.1 1.04 0.3 386 1376574_at 1.87 4.7 1.73 3.8 3.52 12.7 3.46 12.4 1.28 1.2 1.22 0.9 387 1376583_at −1.23 3.2 −1.00 0 1.13 1.4 1.18 2.2 1.08 0.7 −1.12 1.3 388 1376624_at 2.40 8.7 2.07 6.7 2.06 6.6 1.92 5.7 1.26 1.2 −1.05 0.2 389 1376631_at 1.29 2.3 1.10 0.6 1.26 2 1.30 2.4 1.12 0.7 −1.07 0.4 390 1376640_at −1.02 0.1 1.22 1 2.11 7.9 2.00 7.1 1.57 3.7 1.15 0.6 391 1376655_at −1.35 3.6 −1.45 4.9 −1.18 1.5 −1.07 0.4 −1.06 0.3 −1.00 0 392 1376678_at −1.15 0.3 1.11 0.2 1.54 1.6 1.74 2.4 1.34 0.9 1.01 0 393 1376754_at 1.23 2.6 1.14 1.3 1.33 4.3 1.07 0.5 1.07 0.5 −1.01 0.1 394 1376775_at 1.31 1.3 1.70 3.5 2.17 6.2 2.13 6 1.51 2.4 1.15 0.5 395 1376786_as_at −2.07 8.4 −1.86 6.7 −1.51 3.6 −1.20 1 −1.05 0.2 −1.01 0 396 1376788_at −1.64 6.3 −1.58 5.6 −1.39 3.4 −1.28 2.1 −1.31 2.5 1.10 0.6 397 1376848_at −1.08 0.6 −1.00 0 1.31 4 1.40 5.6 1.02 0.1 1.05 0.4 398 1376858_at −1.65 9.6 −1.66 9.8 −1.06 0.4 1.10 0.8 1.20 2 1.08 0.6 399 1376919_at −1.35 4.8 1.00 0 −1.07 0.5 −1.18 1.8 1.00 0 1.12 1.1 400 1377023_at 2.16 1.5 3.30 3 3.80 3.6 4.22 4 1.98 1.3 −1.24 0.3 401 1377369_at −1.43 2.9 −1.28 1.6 −1.12 0.5 −1.20 1 1.05 0.2 −1.07 0.3 402 1377390_at −2.27 11.2 −1.92 8.2 −1.83 7.3 −1.71 6.2 −1.33 2.4 −1.15 0.8 403 1377595_at −1.10 0.3 −1.03 0.1 −1.36 1.7 −1.05 0.2 −1.08 0.2 1.07 0.2 404 1377625_at 1.67 4.3 1.23 1.1 1.20 0.9 1.12 0.5 1.06 0.2 1.01 0 405 1377630_at 1.48 3.5 1.60 4.7 1.74 6 1.74 6 1.19 1 1.15 0.8 406 1377671_at 10.42 21.1 7.69 18.3 6.08 15.9 4.97 13.8 1.74 3 1.09 0.2 407 1377697_at −1.19 0.9 −1.04 0.1 1.43 2.6 1.76 5.4 1.39 2.4 1.25 1.3 408 1377702_at −1.34 3.9 −1.16 1.3 −1.16 1.4 −1.25 2.5 −1.23 2.2 −1.10 0.7 409 1377723_at −1.20 2.8 −1.04 0.3 −1.08 0.8 1.10 1.1 1.09 0.8 1.16 2 410 1377862_at 1.20 0.4 1.06 0.1 1.83 2.3 2.35 4 1.12 0.2 1.27 0.6 411 1377869_at 1.01 0.1 1.17 1.1 1.10 0.6 1.10 0.5 1.20 1.4 1.33 2.7 412 1377950_at −1.46 0.8 1.33 0.5 1.11 0.1 1.89 1.7 1.47 0.8 −1.08 0.1 413 1377994_at 10.82 10.6 14.04 12.2 13.12 11.8 17.14 13.3 2.88 3.2 2.34 2.3 414 1378134_at −1.20 1.6 −1.32 3.1 −1.24 2 −1.17 1.3 −1.05 0.2 −1.11 0.7 415 1378282_at 1.49 5.6 1.32 3.1 1.28 2.6 1.16 1.3 1.01 0 1.01 0 416 1378305_at −1.15 0.3 −1.17 0.3 1.71 1.9 2.03 3 1.82 2.3 1.48 1.2 417 1378321_at −1.05 0.1 1.01 0 −1.26 1 −1.15 0.5 −1.02 0.1 −1.08 0.2 418 1378342_at 1.57 1.4 1.95 2.5 2.43 3.9 2.76 4.8 1.83 2.2 1.26 0.5 419 1378440_at 2.46 9.8 1.66 4.2 1.71 4.6 1.75 4.9 1.34 1.8 1.00 0 420 1378507_at 1.54 4.1 1.38 2.6 1.34 2.3 1.12 0.5 1.24 1.4 −1.10 0.4 421 1378526_at −1.25 1.1 −1.29 1.3 1.12 0.4 1.05 0.2 −1.07 0.2 1.02 0 422 1378925_at 8.81 12.7 3.84 6.5 4.00 6.8 2.78 4.3 1.79 1.8 1.50 1.1 423 1379294_at −1.25 2.3 1.04 0.2 1.45 5.2 1.54 6.6 1.60 7.4 1.32 3.4 424 1379322_at 1.38 5.8 1.17 1.9 1.15 1.5 1.17 1.9 1.02 0.1 −1.00 0 425 1379331_at −1.09 0.1 1.33 0.3 3.90 2.7 18.62 8.7 14.26 7.6 −1.29 0.3 426 1379335_at −1.28 5.1 −1.24 4.1 −1.23 3.7 −1.16 2.2 −1.04 0.3 −1.00 0 427 1379345_at 1.47 1.1 2.51 4.3 4.65 9.1 4.93 9.6 1.99 2.7 −1.03 0 428 1379461_at −1.47 4 −1.30 2.1 −1.33 2.5 −1.30 2.1 −1.12 0.6 −1.05 0.2 429 1379497_at 6.92 7.7 8.82 9.1 5.00 5.8 2.49 2.4 1.07 0.1 1.38 0.5 430 1379604_at −1.10 0.5 1.28 1.8 1.71 6 1.76 6.4 1.40 2.9 1.16 0.9 431 1379772_at −1.23 0.7 1.36 1.3 3.56 10.6 2.97 8.6 1.63 2.6 1.52 2 432 1379790_at 1.22 0.9 1.28 1.3 1.57 3.3 1.58 3.3 1.34 1.7 1.24 1.1 433 1379799_at −1.29 1.3 1.04 0.1 1.25 1.1 1.08 0.3 1.46 2.4 1.27 1.2 434 1379847_at −1.24 0.6 −1.00 0 1.28 0.8 1.54 1.7 1.10 0.2 −1.08 0.2 435 1379882_a_at −1.77 2 −1.94 2.4 −1.02 0 1.14 0.3 1.41 0.9 1.21 0.4 436 1379935_at 20.88 11.3 13.58 9.2 11.66 8.5 8.24 6.8 1.33 0.4 1.18 0.2 437 1380089_at −2.44 4.8 −1.77 2.4 −1.31 0.8 1.10 0.2 1.48 1.4 1.18 0.4 438 1380110_at 3.57 13.3 2.55 8.9 2.77 10 2.58 9 1.34 1.5 1.11 0.3 439 1380318_at 1.25 1.1 1.57 3.2 1.90 5.4 1.90 5.5 1.67 3.8 1.94 5.7 440 1380474_at 1.02 0 1.49 1.1 2.37 3.4 3.11 5.2 1.36 0.7 −1.03 0 441 1380617_at 1.10 0.2 1.05 0.1 1.97 3.5 2.20 4.4 1.47 1.5 1.20 0.5 442 1380688_at −2.44 9.5 −2.27 8.5 −1.73 4.7 −1.50 2.9 −1.0 10 1.17 0.7 443 1380728_at 1.31 1.2 1.48 2.1 1.38 1.6 1.55 2.5 1.46 2 1.05 0.1 444 1380908_at −1.03 0.1 1.16 0.5 1.19 0.6 1.42 1.7 1.40 1.7 1.09 0.2 445 1381190_at −1.26 2.4 1.07 0.4 −1.26 2.4 −1.51 5.7 −1.30 2.9 −1.04 0.2 446 1381305_at −1.11 0.8 1.07 0.4 1.39 4.3 1.81 10.2 1.82 10.2 1.27 2.6 447 1381311_at 1.73 2 2.36 3.9 2.99 5.7 3.69 7.4 2.05 3 1.37 0.9 448 1381335_at 1.68 1.8 1.87 2.4 1.34 0.8 −1.08 0.1 −1.13 0.3 −1.07 0.1 449 1381410_a_at −1.06 0.1 1.21 0.5 1.92 2.9 1.89 2.8 1.46 1.3 1.37 1 450 1381461_at 1.45 3.4 1.56 4.6 1.44 3.4 1.51 4 1.15 0.8 1.20 1.2 451 1381470_at −2.00 7.8 −1.45 3 −1.27 1.6 −1.34 2.1 −1.22 1.2 1.07 0.3 452 1381678_at 1.81 4.3 1.83 4.4 2.12 6.1 1.86 4.6 1.00 0 −1.26 1 453 1381915_at −1.49 2 −1.85 3.8 −1.48 1.9 −1.21 0.7 −1.04 0.1 1.18 0.6 454 1381971_at 1.15 0.3 1.45 1.2 3.81 8.7 3.37 7.6 1.54 1.6 −1.17 0.4 455 1381996_at −1.21 0.8 −1.42 1.9 1.08 0.2 1.38 1.6 1.39 1.7 1.35 1.5 456 1382008_at 1.16 2.4 1.42 9 1.22 3.8 1.12 1.7 −1.12 1.6 −1.21 3.6 457 1382017_at −1.16 0.2 2.57 1.9 2.75 2.1 1.99 1.2 −1.76 0.9 −2.60 1.9 458 1382108_at 1.58 6.6 1.63 7.3 1.81 9.6 1.79 9.3 1.29 2.7 1.01 0.1 459 1382130_at −1.01 0 1.03 0.1 1.42 1.6 1.60 2.5 1.18 0.6 1.16 0.5 460 1382138_at 1.19 1.3 −1.27 2 −1.29 2.3 −1.08 0.4 −1.15 0.9 −1.02 0.1 461 1382181_at 2.46 7 2.44 6.9 2.45 6.9 2.03 4.9 1.50 2.1 1.14 0.4 462 1382212_at −1.67 3.2 −1.45 1.9 1.01 0 1.15 0.5 1.20 0.7 1.06 0.2 463 1382296_at 1.83 5.7 1.52 3.3 1.74 5.1 1.74 5.1 1.02 0.1 1.28 1.5 464 1382375_at −1.43 4.6 −1.10 0.7 1.12 0.8 1.29 2.7 1.25 2.2 1.17 1.3 465 1382404_at 1.62 2.1 1.66 2.3 2.23 4.7 2.51 5.7 1.57 1.9 1.90 3.3 466 1382431_at −1.07 0.1 1.21 0.5 2.26 4.1 2.62 5.2 1.63 1.8 1.59 1.7 467 1382482_at −1.16 0.6 1.06 0.2 1.81 4.8 1.83 4.9 1.41 2.1 −1.03 0.1 468 1382536_at 1.47 5.1 1.28 2.4 1.45 4.7 1.49 5.2 1.29 2.6 1.18 1.3 469 1382571_at −1.12 0.3 −1.46 1.9 1.45 1.9 1.43 1.8 −1.09 0.2 −1.32 1.2 470 1382628_at −1.05 0.3 −1.02 0.1 1.39 4 1.10 0.6 1.23 1.9 1.19 1.5 471 1382680_at 4.84 4.2 4.78 4.1 3.34 2.7 2.88 2.2 1.43 0.5 1.28 0.3 472 1382692_at 9.75 20.1 10.10 20.4 7.39 17.5 5.17 13.9 2.38 5.7 1.56 2 473 1382818_at −1.44 4.7 −1.24 2 −1.06 0.4 −1.09 0.6 1.21 1.7 1.17 1.3 474 1382995_at −1.08 0.4 1.10 0.6 1.36 3.1 1.50 4.8 1.45 4.2 1.02 0.1 475 1383019_at 1.53 1.6 1.20 0.5 1.56 1.7 1.85 2.8 1.19 0.4 1.48 1.4 476 1383073_at 1.44 9.4 1.26 4.8 1.34 6.7 1.34 6.7 1.11 1.4 1.06 0.6 477 1383080_at 1.42 9 1.13 1.8 1.18 3 1.30 5.9 1.18 2.9 1.06 0.6 478 1383131_at 4.36 13.2 4.05 12.3 3.43 10.4 3.31 10 1.65 2.7 1.04 0.1 479 1383147_at −1.26 1.5 −1.64 4.8 −1.17 0.8 1.14 0.7 1.23 1.3 1.15 0.7 480 1383193_at −1.29 2 −1.14 0.8 1.10 0.5 1.21 1.3 1.24 1.6 1.04 0.2 481 1383201_at −1.25 3 −1.25 3 −1.13 1.2 −1.08 0.6 1.04 0.3 1.09 0.7 482 1383240_at 1.84 11 1.30 3.2 1.53 6.7 1.16 1.3 −1.22 2.1 −1.21 1.9 483 1383247_a_at −2.02 9.7 −1.40 3.3 −1.08 0.4 −1.31 2.3 −1.16 0.9 −1.12 0.7 484 1383261_at −1.70 5.8 −1.39 2.7 −1.29 1.9 −1.09 0.4 −1.17 0.9 1.16 0.9 485 1383328_x_at −2.41 10.5 −1.72 5.2 −1.51 3.4 −1.34 2 −1.21 1.1 −1.16 0.7 486 1383355_at 1.29 2 1.67 6 1.76 7 1.79 7.3 1.43 3.5 1.33 2.4 487 1383382_at −1.17 1.8 −1.21 2.2 −1.29 3.6 −1.33 4.3 −1.10 0.8 −1.08 0.6 488 1383469_at −1.45 3.8 −1.20 1.3 −1.22 1.5 −1.58 5.3 −1.63 5.9 −1.27 2 489 1383484_at −1.04 0.6 −1.11 2.7 −1.06 1.1 −1.00 0 1.08 1.9 1.16 5 490 1383489_at 1.44 3.3 1.68 5.7 1.93 8 2.41 11.9 1.78 6.6 1.43 3.2 491 1383498_at −1.06 0.3 1.26 1.8 1.64 5.7 1.98 9.1 1.39 3 1.14 0.7 492 1383516_at 4.54 11.1 2.39 5 2.49 5.3 2.62 5.8 1.44 1.3 1.53 1.6 493 1383533_at −1.43 4.5 −1.32 3 1.01 0.1 1.05 0.3 1.35 3.4 1.17 1.2 494 1383574_at 1.51 4 1.82 7 2.00 8.5 1.93 7.9 1.20 1.1 −1.03 0.1 495 1383641_at 1.12 0.6 1.36 2.3 1.98 8 2.24 10 1.66 5.1 1.10 0.4 496 1383644_at −5.38 3.5 −4.15 2.7 −4.07 2.6 −2.69 1.5 −1.34 0.3 −1.27 0.2 497 1383662_at 1.17 0.8 1.05 0.2 1.16 0.7 1.28 1.4 1.38 2.2 1.06 0.2 498 1383776_at −1.81 11.4 −1.29 3.2 −1.28 3.1 −1.26 2.9 −1.14 1.2 1.09 0.7 499 1383785_at −1.09 0.3 −1.07 0.2 1.21 0.8 1.61 3.1 1.10 0.3 1.15 0.5 500 1383824_at −1.60 1.8 −1.18 0.4 1.97 3.2 2.09 3.7 1.56 1.7 1.17 0.4 501 1383844_at −1.40 1.1 −1.16 0.4 1.62 1.9 1.52 1.6 −1.07 0.1 −1.04 0.1 502 1383863_at −1.10 0.5 1.19 1.1 1.56 4.5 1.77 6.5 −1.01 0 1.06 0.2 503 1383914_at −1.87 6.6 −1.58 4.1 −1.19 0.9 1.02 0.1 1.07 0.3 1.04 0.1 504 1383935_at 1.14 0.2 −1.14 0.2 1.41 0.9 1.72 1.8 1.14 0.3 −1.05 0.1 505 1383949_at 1.30 2.1 1.11 0.5 1.41 3.2 1.60 5.2 1.32 2.2 1.30 2 506 1384051_at 1.04 0.1 1.08 0.2 1.30 1.2 1.65 3.3 1.27 1.1 1.01 0 507 1384165_at 11.68 7.1 7.38 5.2 7.88 5.5 5.10 3.8 1.81 0.8 −1.06 0.1 508 1384183_at −2.08 5.1 −1.83 3.9 −1.80 3.6 −1.29 1 1.05 0.1 −1.10 0.3 509 1384188_at −1.97 10.9 −1.43 4.3 −1.32 2.9 −1.02 0.1 1.21 1.6 1.29 2.5 510 1384192_at −1.13 0.3 1.11 0.2 1.96 3 2.22 4 1.53 1.5 1.02 0 511 1384227_at 1.04 0.2 1.08 0.3 1.31 1.9 1.11 0.5 −1.11 0.5 1.12 0.6 512 1384232_at 1.50 2.6 1.25 1.1 1.52 2.7 1.67 3.8 1.27 1.1 −1.18 0.7 513 1384302_at −2.05 4.4 −2.13 4.7 −1.91 3.7 −1.29 0.9 1.12 0.3 1.04 0.1 514 1384335_at −1.41 7.5 −1.28 4.6 −1.17 2.2 −1.07 0.7 1.03 0.2 1.03 0.3 515 1384381_at 1.18 0.4 1.71 2.1 2.29 4.2 2.56 5.1 1.90 2.9 1.41 1.1 516 1384392_at 1.18 0.6 −1.39 1.8 −1.21 0.8 −1.25 1 −1.36 1.6 1.22 0.8 517 1384415_at 1.69 6.5 1.73 7 1.78 7.4 1.42 3.5 1.35 2.8 −1.30 2.2 518 1384724_at 2.21 10 1.61 4.7 1.87 7.1 1.70 5.6 1.29 1.8 1.17 0.9 519 1384899_at −1.42 2.1 −1.51 2.7 −1.59 3.3 −1.19 0.8 1.09 0.3 −1.09 0.3 520 1384900_at 1.75 5.1 1.64 4.2 1.67 4.4 1.49 3 1.36 2 1.10 0.4 521 1384907_at −1.65 2 −1.47 1.4 −1.14 0.3 1.05 0.1 −1.23 0.5 −1.06 0.1 522 1385057_at 1.32 2.8 1.47 4.6 1.01 0 −1.16 1.1 −1.29 2.4 −1.24 1.9 523 1385359_at 3.92 6.6 3.98 6.7 4.86 8.2 3.81 6.4 1.50 1 1.34 0.7 524 1385397_at 1.70 5.3 1.81 6.2 1.78 5.9 1.73 5.5 1.14 0.6 −1.07 0.3 525 1385444_at −2.33 15.4 −1.75 9 −1.27 2.5 −1.32 3.2 1.24 2.2 1.02 0.1 526 1385506_at −2.01 8.4 −1.44 3.2 −1.42 3 −1.51 3.8 −1.31 2 −1.01 0 527 1385925_at 6.37 11.3 4.37 8.3 4.40 8.3 5.07 9.4 1.39 0.9 1.02 0 528 1385926_at 3.17 12.2 2.23 7.4 2.25 7.5 2.42 8.5 1.21 0.9 1.01 0 529 1386041_s_at 1.52 0.5 1.50 0.5 2.23 1.3 2.33 1.4 1.54 0.5 1.92 0.9 530 1386080_at −1.06 0.2 1.05 0.2 1.43 2.1 1.61 3.3 1.25 1 1.17 0.6 531 1386540_at −1.64 7.5 −1.29 2.7 −1.26 2.4 −1.25 2.2 −1.18 1.4 1.01 0 532 1386721_at −1.62 3.8 −1.51 3 1.00 0 1.58 3.5 1.54 3.3 1.34 1.7 533 1386833_at −1.14 0.3 1.23 0.6 2.02 3.6 1.83 2.8 1.34 1 1.18 0.4 534 1386864_at 2.07 16.1 1.64 10 1.44 6.5 1.22 2.5 −1.01 0 −1.14 1.3 535 1386866_at 1.64 11.2 1.31 4.7 1.46 7.6 1.55 9.6 1.19 2.4 −1.04 0.3 536 1386881_at 2.31 3.5 2.85 4.9 3.91 7.3 4.50 8.4 1.89 2.3 1.30 0.6 537 1386899_at −1.17 2.3 1.07 0.6 1.39 6.8 1.37 6.4 1.32 5.3 1.10 1.1 538 1386912_at −1.86 7.7 −1.40 3.1 1.22 1.3 1.31 2.1 1.40 3 1.06 0.3 539 1386913_at 3.94 21.1 2.97 16.4 2.96 16.4 2.44 13 1.37 2.9 1.08 0.4 540 1386922_at 1.02 0 1.11 0.3 1.64 2.9 1.36 1.4 −1.45 1.8 1.10 0.3 541 1386937_at −1.63 2.5 −1.49 1.8 −1.34 1.1 −1.23 0.7 −1.05 0.1 1.03 0.1 542 1386938_at 1.20 1.7 1.51 5.8 1.82 10 1.58 6.8 1.53 6.2 1.27 2.5 543 1386940_at −1.31 2.8 −1.08 0.5 1.26 2.2 1.35 3.2 1.40 3.9 1.15 1 544 1386948_at −1.29 1.4 1.19 0.8 1.62 3.8 2.09 7.2 −1.07 0.2 1.16 0.6 545 1387001_at 1.45 5.5 1.40 4.8 1.65 8.6 1.51 6.5 1.16 1.4 −1.03 0.2 546 1387005_at 1.78 4.4 2.12 6.5 2.26 7.3 2.56 9 1.75 4.2 1.21 0.8 547 1387018_at −1.80 2.8 −1.64 2.2 1.08 0.2 1.19 0.5 −1.10 0.2 −1.07 0.2 548 1387076_at 2.05 11.1 1.42 3.8 1.55 5.5 1.51 4.9 1.15 1 −1.03 0.1 549 1387125_at 75.78 20.1 79.54 20.3 60.92 19 40.36 17 1.66 1 −1.98 1.5 550 1387137_at 1.15 0.3 1.85 2 2.42 3.4 1.54 1.1 1.02 0 1.08 0.1 551 1387153_at −1.64 4.8 −1.25 1.4 1.15 0.7 1.15 0.7 1.19 1 1.02 0.1 552 1387154_at −3.03 5.5 −4.92 9.3 −10.32 15.2 −6.42 11.4 −2.98 5.3 −1.66 1.6 553 1387160_at 1.32 0.4 2.18 2 3.36 3.9 3.64 4.3 1.67 1.1 −1.14 0.2 554 1387197_at −4.21 15.4 −2.62 9.2 −1.64 3.4 −1.66 3.5 1.24 0.9 1.40 1.9 555 1387202_at 3.15 12.8 2.57 9.9 2.38 8.8 2.37 8.7 1.81 5 −1.07 0.2 556 1387219_at 1.93 3.1 1.57 1.7 1.95 3.2 1.65 2 1.26 0.6 1.06 0.1 557 1387259_at −1.13 0.4 −1.32 1.2 1.11 0.3 1.56 2.5 1.32 1.2 1.13 0.4 558 1387270_at 1.56 2.1 1.98 4 2.45 6 2.36 5.7 1.47 1.7 1.23 0.7 559 1387273_at 3.21 4.7 1.85 1.8 3.70 5.6 4.18 6.4 1.39 0.7 −1.17 0.3 560 1387279_at −1.70 9 −1.06 0.3 −1.06 0.3 −1.19 1.7 −1.23 2.1 −1.03 0.2 561 1387282_at 1.47 2 1.60 2.7 1.39 1.5 1.65 2.9 1.34 1.3 1.23 0.8 562 1387294_at −1.04 0.1 1.34 1.9 1.86 6.3 2.32 9.6 1.41 2.5 1.30 1.7 563 1387306_a_at 2.20 5.7 1.91 4.2 1.98 4.5 1.93 4.3 1.40 1.5 1.23 0.7 564 1387343_at 6.18 13.4 4.65 10.8 2.49 5.1 4.33 10.1 1.23 0.5 1.47 1.4 565 1387344_at −2.23 8.4 −1.70 4.6 −1.57 3.5 −1.32 1.7 −1.18 0.8 −1.02 0.1 566 1387348_at −1.52 2.1 −1.38 1.4 1.08 0.2 1.04 0.1 1.11 0.3 1.12 0.3 567 1387389_at 12.76 10.1 12.72 10.1 16.88 11.6 22.31 13.1 2.46 2.1 2.87 2.7 568 1387395_at 2.02 9.3 1.56 4.7 1.54 4.5 1.26 1.7 1.10 0.5 −1.14 0.8 569 1387402_at 1.60 3.7 1.68 4.3 1.94 6.3 2.02 6.9 1.25 1.2 1.08 0.3 570 1387530_a_at 1.03 0.1 1.04 0.2 −1.09 0.4 −1.15 0.8 −1.29 1.9 −1.43 3.2 571 1387547_a_at 1.05 0.1 1.45 1.4 3.30 8.4 3.27 8.3 1.54 1.8 1.30 0.9 572 1387548_at 1.64 3.1 1.55 2.6 1.67 3.3 2.01 5.3 1.19 0.7 −1.03 0.1 573 1387630_at 1.20 1.4 1.20 1.4 1.32 2.8 1.18 1.3 −1.05 0.2 −1.07 0.4 574 1387648_at 22.75 14.9 16.94 13.2 24.96 15.4 15.47 12.6 3.10 3.5 1.08 0.1 575 1387675_at 2.28 9.3 2.35 9.8 2.98 13.5 1.96 7 1.50 3.2 1.35 2 576 1387759_s_at 1.63 4.3 2.06 7.8 1.85 6.1 1.57 3.8 −1.18 0.9 −1.55 3.6 577 1387789_at −1.66 4.8 −1.02 0.1 1.47 3.1 1.46 3 1.61 4.3 1.14 0.6 578 1387805_at 1.47 2.3 1.42 2 1.32 1.4 1.22 0.9 1.03 0.1 1.04 0.1 579 1387808_at 1.33 2.6 1.43 3.7 1.87 8.6 2.18 11.6 1.82 8.1 1.33 2.6 580 1387817_at −1.63 2.1 −1.36 1.1 −1.04 0.1 1.37 1.1 1.04 0.1 −1.09 0.2 581 1387843_at 1.28 0.8 1.11 0.3 1.19 0.5 1.22 0.6 −1.31 0.9 1.28 0.8 582 1387856_at 1.04 0.2 1.06 0.5 1.33 4.8 1.40 6.2 1.18 2 1.03 0.2 583 1387870_at 1.29 2.2 1.32 2.5 1.07 0.4 −1.08 0.4 −1.13 0.8 1.14 0.8 584 1387871_at 1.80 7.4 1.63 5.7 2.16 10.8 2.14 10.6 1.12 0.6 −1.04 0.1 585 1387885_at −1.50 4.4 1.38 3.1 1.55 5 1.60 5.5 1.33 2.5 1.02 0.1 586 1387892_at 1.92 13.6 1.55 8 1.49 6.9 1.50 7.1 1.04 0.3 −1.08 0.6 587 1387893_at 1.22 1.5 1.52 4.7 2.30 12.6 2.41 13.5 1.77 7.5 1.37 3 588 1387896_at −1.45 4.4 −1.42 4.1 −1.45 4.4 −1.28 2.4 −1.11 0.7 −1.08 0.4 589 1387897_at −1.53 4.3 1.08 0.4 −1.06 0.3 1.05 0.2 1.08 0.3 1.18 1 590 1387975_at 1.36 2.5 1.31 2.1 1.52 4 1.64 5.2 1.07 0.3 −1.05 0.2 591 1387976_at −1.77 4.3 −1.36 1.6 1.52 2.6 1.37 1.7 1.51 2.6 −1.02 0 592 1388032_a_at 17.94 8.9 14.69 8 10.69 6.7 2.48 1.5 1.33 0.3 −1.99 1 593 1388054_a_at 6.42 7.8 3.47 4.2 2.65 2.9 4.97 6.3 1.14 0.2 −1.30 0.4 594 1388089_a_at 1.18 1.7 1.23 2.3 1.14 1.2 1.11 0.9 1.01 0.1 −1.14 1.1 595 1388119_at 1.37 7.8 1.15 2.3 1.04 0.4 −1.01 0.1 −1.04 0.4 −1.03 0.3 596 1388120_at −1.25 3.1 −1.24 3.1 −1.13 1.3 −1.33 4.7 −1.12 1.1 −1.25 3.3 597 1388131_at 2.24 6.1 2.37 6.8 3.74 12.2 4.60 14.6 1.29 1.1 1.18 0.6 598 1388142_at 5.13 5.6 2.79 2.8 2.41 2.2 4.36 4.8 1.32 0.4 1.03 0 599 1388143_at 1.90 7.1 1.90 7.1 2.87 13.9 2.92 14.2 1.26 1.5 −1.04 0.2 600 1388151_at 1.01 0 1.16 2.1 1.27 4.1 1.30 4.8 1.02 0.2 −1.04 0.3 601 1388155_at −1.94 2.1 −1.77 1.7 −1.73 1.5 −1.73 1.5 −1.38 0.7 −1.04 0.1 602 1388170_at −1.08 0.4 1.09 0.5 1.19 1.3 1.22 1.6 1.20 1.4 1.02 0.1 603 1388201_at −2.01 4 −1.73 2.8 −1.24 0.7 −1.57 2.1 1.04 0.1 −1.12 0.3 604 1388204_at 23.83 13.5 25.19 13.8 14.22 10.7 5.66 5.8 2.29 1.9 −1.15 0.2 605 1388218_at 1.01 0 −1.43 2.1 −1.37 1.7 −1.77 4.3 −2.07 6.2 −1.43 2.1 606 1388243_at −1.07 0.2 1.34 1.7 2.06 6.9 2.84 11.6 2.84 11.6 1.46 2.6 607 1388271_at 10.71 28.9 7.13 24.5 4.92 20 3.94 16.9 2.16 8 1.38 2.1 608 1388312_at −1.68 4.5 −1.31 1.6 1.22 1.1 1.35 1.9 1.61 4 1.26 1.3 609 1388318_at 2.94 22.9 2.66 20.8 1.74 10.6 1.38 4.9 1.08 0.6 1.04 0.3 610 1388335_at 1.69 11 1.68 10.8 1.84 13.3 1.77 12.3 1.05 0.4 −1.02 0.1 611 1388348_at 1.64 8.6 1.50 6.5 1.54 7.1 1.31 3.4 1.05 0.3 1.00 0 612 1388356_at −1.07 0.5 −1.06 0.4 −1.20 2.2 −1.40 5.6 −1.23 2.6 −1.18 1.9 613 1388392_at 1.45 6.7 1.52 8.1 1.78 12.5 1.78 12.4 1.20 2.2 1.04 0.3 614 1388397_at 1.96 8.8 1.11 0.5 1.15 0.8 1.12 0.6 1.04 0.2 −1.02 0.1 615 1388401_at 1.17 1.2 1.15 1 1.47 4.4 1.54 5.3 1.14 0.9 1.04 0.2 616 1388449_at 1.36 9.8 1.51 14.3 1.25 6.2 1.11 1.9 1.12 2.2 1.09 1.4 617 1388459_at 1.78 4.1 1.62 3.1 3.10 11 3.34 11.9 1.54 2.6 −1.07 0.2 618 1388486_at −1.58 9.1 −1.47 7.1 −1.30 4 −1.27 3.5 −1.08 0.7 1.05 0.4 619 1388492_at 1.06 0.5 1.21 3 1.21 3.1 1.03 0.2 1.03 0.3 −1.07 0.7 620 1388493_at −1.53 2.8 −1.29 1.3 −1.02 0 1.29 1.3 1.40 2 1.19 0.7 621 1388494_at 1.15 0.6 1.33 1.6 3.18 12.5 3.85 15.1 1.72 4.2 −1.11 0.4 622 1388495_at −1.11 0.8 −1.36 4.4 −1.18 1.6 −1.16 1.4 1.04 0.2 1.05 0.3 623 1388521_at 1.13 0.7 −1.08 0.4 1.27 1.9 1.39 3.1 1.22 1.4 −1.16 0.9 624 1388533_at −1.46 9.2 −1.35 6.6 −1.23 3.7 −1.19 2.8 1.02 0.2 1.05 0.5 625 1388534_at 1.14 1.6 1.22 2.9 1.16 1.8 1.21 2.8 −1.06 0.5 −1.07 0.6 626 1388568_at 1.33 7.9 1.07 0.9 1.06 0.8 1.02 0.2 −1.04 0.5 −1.05 0.6 627 1388583_at −2.04 5 −1.84 3.9 1.16 0.5 1.13 0.4 −1.00 0 1.14 0.4 628 1388602_at 1.06 0.2 1.79 3.5 2.73 7.9 2.87 8.5 1.48 1.9 1.20 0.6 629 1388618_at −1.32 2.5 −1.14 0.9 1.27 2 1.43 3.7 1.18 1.1 1.09 0.4 630 1388666_at 1.74 6.5 1.49 3.9 1.33 2.3 1.87 7.8 1.06 0.2 1.45 3.6 631 1388695_at 2.21 18.3 1.56 8.9 1.27 3.5 1.31 4.2 1.01 0 1.02 0.1 632 1388699_at −1.14 1.1 1.12 0.9 1.37 4.3 1.45 5.7 1.42 5.2 1.29 3.2 633 1388700_at −1.72 11 −1.28 3.5 −1.13 1.2 −1.09 0.7 1.13 1.2 1.10 0.9 634 1388703_at 1.65 2.5 2.05 4.4 2.94 8 3.42 9.6 1.51 1.8 1.14 0.4 635 1388705_at −1.01 0 1.44 4 1.98 10.1 2.11 11.3 1.63 6.2 1.06 0.3 636 1388711_at 2.15 14 2.29 15.4 1.77 9.5 1.50 5.8 1.29 2.8 1.09 0.6 637 1388715_at 1.52 10.8 1.28 5.1 1.26 4.7 1.26 4.7 1.00 0 −1.07 0.8 638 1388728_at −1.52 8.8 −1.25 3.4 −1.17 2 −1.25 3.5 −1.09 0.8 −1.03 0.2 639 1388742_at 1.46 5.7 1.44 5.4 1.31 3.5 1.42 5.2 1.43 5.3 1.22 2.1 640 1388750_at 3.58 14.6 1.25 1.1 1.09 0.3 1.33 1.6 1.03 0.1 −1.19 0.8 641 1388773_at −1.00 0 −1.05 0.2 −1.15 0.9 −1.24 1.7 −1.19 1.2 −1.10 0.5 642 1388792_at 3.59 9.1 2.31 4.9 2.27 4.7 3.16 7.9 −1.07 0.2 1.37 1.1 643 1388836_at −1.63 10.6 −1.58 9.7 −1.20 2.4 −1.27 3.7 −1.33 4.7 −1.19 2.3 644 1388870_at −1.26 4.1 −1.43 7.9 −1.21 3 −1.16 2.1 −1.01 0.1 1.07 0.6 645 1388878_at 1.42 2.7 1.57 4 1.52 3.6 1.25 1.4 1.43 2.7 1.42 2.7 646 1388889_at −1.40 5.5 −1.19 1.9 −1.31 4 −1.43 6 −1.17 1.7 1.02 0.1 647 1388926_at −1.33 2 1.15 0.7 1.08 0.3 1.09 0.4 1.36 2.3 1.36 2.2 648 1388945_at 2.24 9.7 1.73 5.6 2.05 8.2 2.07 8.4 1.44 2.9 1.41 2.7 649 1388955_at 1.06 0.5 1.28 4.7 1.73 14.2 1.53 10.3 1.25 4 1.05 0.4 650 1388970_at 1.17 0.4 1.68 2.2 2.75 6.2 2.23 4.4 1.35 1 1.15 0.3 651 1389018_at 2.43 6.5 3.30 9.9 2.03 4.6 1.77 3.3 −1.04 0.1 −1.08 0.2 652 1389039_at −1.09 0.5 −1.04 0.2 1.31 2.5 1.48 4.3 1.52 4.8 1.18 1.1 653 1389040_at −1.16 1.6 −1.37 5 −1.14 1.4 −1.12 1 1.15 1.4 1.12 1 654 1389059_at −2.02 7.2 −1.51 3.2 −1.14 0.6 −1.15 0.7 1.02 0.1 1.08 0.3 655 1389103_at 1.49 5 1.33 3 1.30 2.7 1.20 1.6 −1.03 0.2 −1.01 0.1 656 1389123_at −1.05 0.1 1.33 1.5 1.17 0.6 −1.13 0.5 1.06 0.2 1.12 0.4 657 1389151_at 2.00 5.8 1.62 3.3 2.18 6.9 2.99 11.2 1.65 3.5 1.14 0.5 658 1389153_at −1.19 2.1 −1.54 8.3 −1.41 6.1 −1.41 6 −1.10 0.9 1.01 0 659 1389157_at −1.01 0.1 −1.10 0.7 1.10 0.8 1.16 1.4 1.01 0.1 1.07 0.4 660 1389186_at 1.14 0.8 1.17 1 1.59 5.5 1.87 8.4 1.61 5.7 1.18 1.1 661 1389207_at 1.46 6.2 1.34 4.2 1.41 5.3 1.15 1.3 1.06 0.4 1.05 0.3 662 1389213_at −1.14 0.8 −1.16 0.9 1.14 0.8 1.21 1.4 −1.02 0.1 −1.24 1.6 663 1389214_at 2.15 5 2.45 6.3 3.74 10.9 4.56 13 1.83 3.4 1.30 1 664 1389227_at 1.36 5 1.61 9.3 1.49 7.2 1.35 4.7 1.22 2.4 1.04 0.3 665 1389244_x_at 8.87 12.9 10.59 14.2 15.19 16.8 19.77 18.6 6.34 10.4 2.88 4.6 666 1389255_at 1.09 0.2 1.79 2.8 3.81 9.9 3.94 10.2 1.88 3.2 1.56 1.9 667 1389297_at 1.74 5 1.67 4.5 1.44 2.6 1.25 1.2 1.19 0.9 1.11 0.4 668 1389324_at −1.31 1.5 1.13 0.5 2.16 7.6 1.93 6 1.09 0.3 −1.02 0.1 669 1389341_at −1.22 0.6 1.17 0.4 2.83 7.1 2.79 6.9 1.42 1.3 1.17 0.4 670 1389373_at −1.27 4.1 −1.06 0.5 1.14 1.6 1.13 1.5 1.00 0 1.02 0.1 671 1389464_at −10.10 5.4 −2.12 1 −8.63 4.8 −3.78 2.3 −1.70 0.6 −1.87 0.8 672 1389470_at 6.43 8.4 4.38 6 1.99 1.9 2.55 3 1.11 0.2 1.12 0.2 673 1389476_at −1.29 3.5 −1.30 3.7 −1.04 0.2 −1.03 0.2 −1.04 0.3 1.02 0.1 674 1389478_at −1.12 0.7 1.02 0.1 1.16 1 1.21 1.6 1.21 1.5 −1.11 0.6 675 1389483_at 1.56 4.7 1.53 4.4 1.82 7.4 2.21 10.9 1.47 3.7 1.24 1.6 676 1389533_at −1.56 2.6 1.11 0.3 1.45 2 2.53 8.1 2.11 5.9 1.17 0.6 677 1389546_at −1.47 6.1 −1.29 3.2 −1.07 0.5 1.14 1.2 1.17 1.5 1.34 4 678 1389573_at −1.72 5.1 −1.03 0.1 1.18 0.8 1.04 0.2 1.35 2.1 −1.14 0.6 679 1389590_at −1.34 2.2 −1.39 2.6 −1.29 1.8 −1.13 0.6 −1.13 0.6 1.06 0.2 680 1389611_at −1.55 3.7 −1.73 5.2 −1.67 4.7 −1.28 1.5 −1.16 0.7 −1.10 0.4 681 1389617_at 1.49 5 1.57 6.1 1.88 9.9 1.61 6.5 1.05 0.2 −1.13 0.8 682 1389651_at 1.51 1.9 1.56 2.1 2.60 6.7 2.43 6 1.18 0.5 −1.10 0.2 683 1389787_at 1.23 1.8 1.49 4.8 1.62 6.4 1.91 9.9 1.45 4.4 1.05 0.3 684 1389789_at 1.15 1 1.06 0.3 −1.20 1.6 −1.28 2.6 −1.20 1.7 1.02 0.1 685 1389836_a_at −2.40 9.2 −2.60 10.4 −1.97 6.4 −1.84 5.4 −1.13 0.5 −1.02 0.1 686 1389883_at −1.45 6.2 −1.24 2.6 −1.06 0.4 −1.08 0.6 1.00 0 −1.10 0.8 687 1389966_at −3.00 21.4 −2.06 13.4 −1.11 0.7 1.03 0.2 1.57 7 1.08 0.5 688 1390031_at 1.38 3.5 1.36 3.3 1.22 1.7 1.09 0.5 1.06 0.3 −1.01 0 689 1390112_at −1.45 1.6 −1.19 0.5 −1.50 1.8 −1.49 1.7 −1.06 0.1 1.29 0.9 690 1390141_at 2.74 7.5 1.48 1.8 1.32 1.1 1.35 1.1 1.48 1.7 1.03 0.1 691 1390159_at −2.41 5.6 −2.05 4.1 −1.33 1 1.01 0 −1.16 0.4 −1.11 0.3 692 1390173_at 1.77 11.3 1.25 2.8 1.36 4.6 1.10 0.8 −1.03 0.2 −1.05 0.3 693 1390300_at 1.01 0 1.04 0.1 1.65 2.6 1.68 2.7 1.27 0.8 1.52 2 694 1390306_at 1.10 0.4 1.20 0.8 1.52 2.9 1.54 3.1 1.14 0.5 1.04 0.1 695 1390311_at −1.42 5.2 −1.23 2.2 −1.23 2.3 1.01 0 −1.05 0.3 1.00 0 696 1390380_at −1.36 5.2 −1.25 3.2 1.02 0.1 1.06 0.4 1.05 0.4 1.05 0.4 697 1390383_at 2.66 7.3 3.21 9.4 2.71 7.5 2.37 6 1.21 0.6 1.04 0.1 698 1390388_at −1.54 2.4 −1.03 0.1 −1.22 0.8 −1.36 1.5 −1.09 0.3 −1.12 0.4 699 1390403_at 1.17 0.6 1.41 1.9 1.99 5.6 1.96 5.4 1.35 1.5 1.16 0.6 700 1390406_at 1.11 0.7 1.28 2.5 1.77 9.1 1.44 4.7 1.15 1.1 1.12 0.8 701 1390415_at 1.85 5.8 1.47 2.8 1.57 3.6 1.33 1.7 −1.10 0.4 −1.09 0.3 702 1390420_at 2.31 4.9 2.53 5.7 3.04 7.5 2.47 5.5 2.76 6.5 1.36 1 703 1390536_at −1.87 9.1 −1.53 5.1 −1.43 3.9 −1.24 1.7 −1.24 1.8 −1.00 0 704 1390555_at 1.11 0.7 1.09 0.5 1.16 1 1.38 3.5 1.08 0.4 −1.09 0.5 705 1390647_at 1.09 0.5 1.01 0.1 1.15 1 1.19 1.3 1.17 1.1 1.00 0 706 1390706_at −1.37 3.2 −1.21 1.4 −1.15 0.9 1.08 0.4 1.08 0.4 1.11 0.6 707 1390738_at 1.53 1.6 1.51 1.5 1.84 2.8 2.16 4 2.44 5 1.26 0.7 708 1390782_at −1.99 4 −1.43 1.5 1.92 3.6 2.18 4.8 1.06 0.1 1.24 0.7 709 1390828_at −2.21 1.5 1.23 0.3 1.49 0.6 1.86 1.1 1.70 0.8 1.55 0.7 710 1390832_at −1.28 2 −1.34 2.7 −1.30 2.3 −1.34 2.7 −1.23 1.6 −1.14 0.8 711 1390835_at 2.40 6.1 2.11 4.8 2.81 7.8 1.67 2.7 1.61 2.4 1.20 0.6 712 1390846_at −1.47 5.4 −1.28 2.8 1.09 0.6 1.09 0.6 1.41 4.5 1.03 0.1 713 1390914_at 1.28 1.8 1.60 4.7 2.06 9 2.11 9.4 1.62 4.9 1.22 1.2 714 1391167_at −1.35 4.3 −1.06 0.4 −1.11 0.9 −1.17 1.6 −1.04 0.3 −1.03 0.2 715 1391421_at −1.47 4.8 −1.37 3.4 −1.07 0.4 −1.04 0.2 1.13 0.8 −1.02 0.1 716 1391435_at −1.70 3.5 1.11 0.3 1.91 4.7 2.10 5.8 1.50 2.3 1.18 0.6 717 1391442_at −1.00 0 1.29 1.4 1.80 4.9 2.24 7.8 2.06 6.6 1.20 0.8 718 1391450_at −1.39 1.8 1.11 0.3 1.87 4.9 2.18 6.8 1.50 2.5 −1.21 0.8 719 1391458_at 3.30 10.5 3.33 10.7 3.03 9.5 2.04 5 1.19 0.6 1.12 0.3 720 1391503_at 1.20 0.7 1.26 1 1.71 3.7 1.82 4.4 1.28 1.2 1.01 0 721 1391505_x_at 4.60 7.6 5.48 8.9 4.25 7.1 2.15 2.7 1.24 0.4 1.20 0.3 722 1391607_at 1.35 2.9 1.49 4.5 1.12 0.7 1.17 1.1 −1.04 0.2 1.03 0.1 723 1391827_at −1.05 0.3 1.17 1.1 1.21 1.6 1.36 3.3 1.03 0.2 1.00 0 724 1391856_at −1.26 1.1 −1.28 1.2 1.04 0.1 1.31 1.4 1.09 0.3 1.05 0.1 725 1391871_at −1.04 0.1 −1.46 1.8 1.37 1.4 1.55 2.3 1.27 0.9 1.35 1.3 726 1391946_at 4.42 8.7 2.92 5.4 2.72 4.8 1.70 1.8 1.39 0.9 1.07 0.1 727 1392044_at −1.78 6.9 −1.35 2.6 −1.02 0.1 1.01 0 1.32 2.2 1.16 0.9 728 1392171_at 21.90 17.4 17.41 15.9 8.92 11.4 5.84 8.5 1.37 0.7 −1.18 0.3 729 1392220_at −1.85 5.2 −1.13 0.5 1.76 4.5 1.77 4.6 1.74 4.4 1.27 1.2 730 1392264_s_at 4.14 4.4 6.74 6.8 6.71 6.8 6.23 6.4 3.26 3.3 1.91 1.3 731 1392280_at 2.17 6.6 1.94 5.2 1.45 2.1 1.15 0.5 1.09 0.3 1.01 0 732 1392471_at −1.27 3.8 −1.27 3.8 −1.15 1.6 −1.11 1.1 −1.08 0.7 1.08 0.6 733 1392489_at −1.16 0.9 1.21 1.4 1.95 9 2.31 12.2 1.80 7.5 1.43 3.6 734 1392490_at −1.18 2.6 −1.12 1.5 −1.13 1.7 −1.07 0.7 1.11 1.3 −1.03 0.3 735 1392497_at −1.40 4.1 −1.41 4.2 −1.05 0.3 1.02 0.1 1.05 0.3 1.05 0.3 736 1392578_at 2.29 7.2 2.66 9.1 2.66 9.1 3.94 14.1 2.98 10.5 1.87 4.7 737 1392597_at −1.47 4.6 −1.12 0.7 −1.13 0.8 −1.12 0.7 1.05 0.2 −1.16 1 738 1392648_at 2.53 8 3.34 11.4 3.04 10.2 3.19 10.8 1.49 2.2 1.04 0.1 739 1392736_at 5.66 7.2 6.46 8 4.32 5.6 1.55 0.9 −1.15 0.2 1.14 0.2 740 1392784_at 1.04 0.2 1.03 0.1 1.23 1.5 1.26 1.8 1.24 1.6 1.11 0.6 741 1392786_at 1.33 1.1 1.28 0.9 1.97 4.3 1.96 4.2 1.51 1.9 1.32 1.1 742 1392905_at 3.44 6.8 3.61 7.2 4.27 8.6 3.96 7.9 2.04 2.9 1.28 0.6 743 1392917_at −1.04 0.3 −1.15 2 −1.11 1.2 −1.08 0.8 −1.02 0.2 −1.07 0.7 744 1392934_at −1.05 0.5 −1.04 0.5 1.04 0.4 1.15 2.6 1.13 2.2 −1.01 0.1 745 1392948_at −1.29 0.8 −1.66 2.2 −1.73 2.5 −1.44 1.4 −1.28 0.8 −1.07 0.1 746 1392953_at 1.09 0.2 1.10 0.2 1.32 0.9 1.42 1.2 1.02 0 −1.12 0.3 747 1392953_at 1.09 0.2 1.10 0.2 1.32 0.9 1.42 1.2 1.02 0 −1.12 0.3 748 1392990_at −1.90 2 −1.67 1.4 1.61 1.3 2.11 2.5 1.13 0.2 −1.10 0.2 749 1393003_at 1.40 2.6 1.12 0.5 1.20 1 1.47 3.1 1.22 1.1 1.05 0.2 750 1393067_at −1.32 2.1 −1.00 0 1.46 3.4 1.52 4.1 1.22 1.3 1.29 1.9 751 1393210_at −4.53 10.3 −3.93 9 −1.47 1.3 −1.51 1.5 1.15 0.3 1.23 0.5 752 1393235_at 1.46 1.6 1.22 0.6 1.94 3.7 2.26 5 1.54 1.9 1.05 0.1 753 1393240_at 1.87 8.7 1.88 8.8 2.17 11.6 2.33 13 1.55 5.2 1.13 0.7 754 1393249_at 1.54 2.3 1.66 3 2.68 8.3 3.38 11 1.55 2.4 1.05 0.1 755 1393252_at 1.36 1.5 1.51 2.4 1.73 3.7 1.97 5.2 1.39 1.7 1.06 0.2 756 1393281_at −1.27 2 1.09 0.5 1.91 8.8 1.83 7.9 1.19 1.2 1.22 1.5 757 1393282_at −1.99 9.8 −1.54 5 −1.14 0.9 −1.37 3.1 −1.14 0.8 −1.23 1.6 758 1393316_at 2.65 6.1 2.49 5.5 2.86 6.8 3.20 7.9 1.45 1.4 1.06 0.1 759 1393401_at 1.71 1.1 1.54 0.8 3.61 4 3.69 4.1 1.55 0.8 −1.39 0.5 760 1393427_s_at 1.18 1 1.25 1.6 1.68 5.6 1.61 5 1.30 1.9 1.08 0.3 761 1393460_at 2.02 8.7 2.13 9.6 2.26 10.6 2.15 9.7 1.46 3.4 1.07 0.3 762 1393706_at 2.39 7.7 1.74 3.9 1.63 3.2 1.72 3.8 1.31 1.3 1.07 0.2 763 1393730_at 6.72 11.5 4.36 8.1 6.12 10.8 8.74 13.6 2.43 3.8 2.14 3 764 1393799_at −1.00 0 −1.09 0.3 1.27 1.2 1.68 4 1.20 0.8 1.03 0.1 765 1393883_at −1.07 0.2 1.02 0 1.14 0.4 1.45 1.7 1.03 0.1 1.09 0.2 766 1393917_at 2.89 5.1 4.22 8 3.45 6.4 2.84 4.9 1.23 0.5 1.18 0.3 767 1393944_at −1.51 2.2 −1.17 0.5 1.94 4.8 1.92 4.6 2.00 5.1 1.26 0.9 768 1393987_s_at 1.40 7.2 1.43 7.8 1.33 5.7 1.22 3.2 1.13 1.5 1.10 1.1 769 1394109_at 2.10 6.4 1.96 5.6 2.24 7.3 3.00 11.2 3.57 13.5 1.48 2.4 770 1394315_at 1.92 3.8 1.92 3.8 2.51 6.4 1.85 3.5 1.07 0.2 −1.02 0 771 1394375_x_at −1.27 0.9 1.01 0 1.87 3.8 1.90 4 1.11 0.3 −1.01 0 772 1394459_at −2.52 10.8 −1.86 6.2 −2.12 8.2 −1.48 3.1 −1.01 0 −1.01 0 773 1394473_at 1.26 1.2 1.43 2.3 1.55 3.2 2.03 6.7 1.45 2.5 1.18 0.8 774 1394483_at 2.22 3.7 1.71 2 1.93 2.7 2.79 5.4 1.30 0.7 −1.04 0.1 775 1394490_at −1.02 0 1.54 1.8 2.47 5.4 2.66 6.1 1.93 3.3 1.76 2.6 776 1394597_at 1.03 0.2 1.10 0.7 1.08 0.5 1.22 2.3 1.18 1.7 1.18 1.8 777 1394612_at −1.36 2.3 −1.42 2.8 −1.29 1.7 −1.14 0.7 −1.08 0.3 1.16 0.8 778 1395079_at 1.15 0.5 1.17 0.5 1.39 1.5 1.56 2.3 1.33 1.2 −1.16 0.5 779 1395197_at −1.04 0.1 −1.26 1.1 1.04 0.1 1.17 0.6 −1.07 0.2 −1.20 0.8 780 1395265_at −1.17 0.9 1.23 1.4 1.27 1.7 1.47 3.6 1.17 0.9 1.03 0.1 781 1395357_at 1.03 0.1 −1.02 0 1.22 0.7 1.48 1.9 1.37 1.4 1.16 0.5 782 1395508_at 1.66 5.1 1.46 3.3 1.36 2.4 1.38 2.6 1.11 0.5 −1.02 0.1 783 1395635_at 1.49 1.7 1.04 0.1 1.67 2.6 1.90 3.7 1.20 0.6 −1.02 0 784 1395663_at −1.32 4.8 −1.16 1.8 −1.17 2 −1.32 4.8 −1.09 0.8 −1.09 0.8 785 1395730_at 1.50 3.3 1.30 1.6 1.33 1.9 1.40 2.5 −1.03 0.1 −1.10 0.4 786 1396055_at −2.92 11.1 −2.20 7.3 −1.37 1.7 −1.06 0.2 1.46 2.4 −1.04 0.1 787 1396208_at 1.93 4.5 1.64 2.9 1.56 2.4 1.39 1.6 −1.01 0 1.11 0.3 788 1397272_at −1.56 4.4 −1.71 5.8 −1.60 4.7 −1.66 5.3 −1.07 0.3 −1.30 1.9 789 1397317_at 1.86 2.4 1.81 2.3 2.24 3.7 3.28 6.7 1.63 1.7 −1.03 0.1 790 1397644_at 1.96 6.3 1.35 1.8 1.88 5.8 2.51 9.9 1.12 0.4 −1.11 0.4 791 1397674_at 1.37 2.4 1.23 1.3 1.03 0.1 1.23 1.3 −1.06 0.2 −1.12 0.6 792 1397808_at 2.42 6 2.62 6.8 3.06 8.4 3.76 10.6 1.67 2.6 1.27 0.8 793 1398131_at −1.02 0.1 −1.14 0.6 1.30 1.7 1.45 2.9 1.17 0.8 1.07 0.3 794 1398246_s_at 5.99 10.9 6.83 12 6.77 11.9 4.74 9 1.71 1.8 1.68 1.7 795 1398256_at 37.28 16.8 27.02 15.1 21.59 13.9 7.03 7.5 2.02 1.6 −1.01 0 796 1398275_at 30.47 8.8 41.12 9.8 150.57 14.5 80.59 12.3 2.94 1.5 −1.44 0.3 797 1398286_at −2.12 10 −1.70 6.1 −1.25 1.6 −1.25 1.6 −1.05 0.2 1.06 0.2 798 1398287_at 1.62 3.6 1.69 4.1 2.17 7.4 1.41 2.2 1.17 0.7 1.02 0.1 799 1398303_s_at 1.73 6.9 1.56 5 1.82 7.7 1.58 5.2 1.21 1.3 −1.17 1 800 1398332_at −1.02 0.1 1.08 0.5 1.41 4.1 1.45 4.6 1.10 0.7 1.04 0.2 801 1398333_at −1.13 1.5 −1.01 0 1.20 2.8 1.09 0.9 1.18 2.3 1.18 2.4 802 1398335_at −1.34 4.3 1.01 0.1 1.28 3.2 1.34 4.3 1.19 1.9 −1.03 0.2 803 1398348_at 2.10 2.8 1.33 0.7 1.33 0.7 1.59 1.3 −1.03 0 −1.31 0.6 804 1398350_at 1.36 1.4 1.25 0.9 1.46 1.9 2.42 7.1 1.55 2.4 1.10 0.3 805 1398356_at 1.59 14.6 1.60 14.8 1.46 11.3 1.29 6.5 −1.17 3 −1.06 0.7 806 1398380_at 2.73 13.7 2.53 12.5 2.84 14.4 2.99 15.3 1.86 7.1 1.11 0.5 807 1398390_at 2.81 4.1 2.57 3.6 1.64 1.3 2.62 3.7 1.51 1 −1.32 0.6 808 1398397_at −1.03 0.1 1.09 0.3 2.06 7.1 2.79 11.5 1.86 5.7 1.43 2.4 809 1398597_at −1.19 0.9 −1.35 1.9 1.61 3.8 1.50 2.9 1.30 1.5 1.35 1.9 810 1398626_s_at 1.36 10.6 1.35 10.3 1.31 8.9 1.28 7.8 1.01 0.1 1.00 0 811 1398656_at −1.58 0.8 −5.58 5.9 −2.10 1.6 −4.53 4.9 −2.11 1.6 −1.30 0.4 812 1398664_at −1.76 5.4 −1.26 1.4 −1.15 0.6 −1.09 0.4 −1.12 0.5 −1.12 0.5 813 1398727_at 1.11 0.2 1.28 0.7 1.31 0.8 1.43 1.1 1.10 0.2 −1.14 0.3 814 1398757_at 2.66 19.3 2.18 14.9 2.01 13 1.87 11.4 1.35 3.9 1.10 0.7 815 1398765_at 1.24 6 1.42 11.9 1.37 10.1 1.39 11 1.13 2.5 1.01 0.1 816 1398828_at 2.10 10.4 2.23 11.4 2.92 16.4 2.92 16.4 1.69 6.4 1.12 0.6 817 1398829_at 1.76 11.4 1.74 11.1 2.32 18.3 2.37 18.9 1.43 6 1.08 0.6 818 1398833_at −1.26 4.9 −1.20 3.3 1.00 0 −1.04 0.3 1.10 1.2 1.09 1.1 819 1398840_at 1.02 0.1 1.09 0.5 1.52 4.8 1.57 5.4 1.30 2.3 1.11 0.6 820 1398851_at 1.25 4.5 1.03 0.3 1.01 0.1 1.02 0.2 −1.12 1.6 −1.12 1.6 821 1398857_at −1.39 6.3 −1.11 1.1 −1.15 1.7 −1.14 1.4 −1.09 0.8 1.04 0.3 822 1398873_at 1.20 3.2 −1.01 0 1.07 0.7 −1.05 0.4 −1.26 4.6 1.03 0.3 823 1398893_at −1.03 0.3 −1.15 2.2 −1.02 0.1 1.04 0.3 −1.01 0.1 −1.05 0.5 824 1398962_at 1.15 1.6 1.12 1.1 1.34 5 1.35 5.1 −1.01 0.1 1.07 0.6 825 1398970_at −1.28 4.1 −1.14 1.5 −1.14 1.6 −1.07 0.6 1.16 1.9 1.00 0 826 1398994_at 1.11 0.5 1.22 1.3 1.41 3 1.99 8.6 1.36 2.5 −1.03 0.1 827 1399019_at −1.10 1.9 1.08 1.3 1.10 1.8 1.14 3 1.03 0.3 1.02 0.2 828 1399045_at 1.40 5.4 1.29 3.4 1.46 6.3 1.35 4.5 1.22 2.3 1.02 0.1 829 1399122_at −1.11 0.9 −1.16 1.4 −1.20 1.9 −1.19 1.7 1.03 0.2 1.04 0.2

TABLE 3 Time course of gene expression in aortic ring assay Fold Fold Fold Fold Affymetrix Change NLogP Change NLogP Change NLogP Change No. Probe Set ID Day 0 Day 0 Day 1 Day 1 Day 2 Day 2 Day 4 1 1367453_at −1.03 0.2 −1.11 1.1 −1.01 0 1.26 2 1367463_at −1.03 0.3 −1.26 4.7 −1.12 1.6 1.07 3 1367538_at 1.23 2 1.36 4 1.24 2.2 1.30 4 1367574_at 1.02 0.1 −2.22 11.8 −1.42 3.5 −1.41 5 1367575_at 1.17 0.9 −1.11 0.6 −1.02 0.1 1.22 6 1367579_a_at 1.10 0.7 −1.53 6.9 −1.39 4.7 −1.22 7 1367581_a_at 1.41 1.8 −1.30 1.4 −1.26 1.2 −1.73 8 1367590_at 1.11 0.9 −1.32 4.4 −1.25 3.1 −1.23 9 1367594_at −1.23 1.7 1.18 1.4 −1.24 2 1.05 10 1367619_at 1.31 2.3 1.23 1.7 1.10 0.5 −1.11 11 1367627_at 2.82 1.6 −1.02 0 1.08 0.1 1.70 12 1367646_at 1.18 1.4 −1.26 2.5 −1.30 3.1 −1.46 13 1367652_at 2.21 2 1.02 0 2.99 3.5 5.14 14 1367658_at −1.17 0.2 1.43 0.6 1.74 1.1 3.56 15 1367661_at 1.71 2.9 −1.94 4.4 −1.58 2.4 −1.59 16 1367663_at 1.06 0.3 1.02 0.1 1.14 1.2 1.36 17 1367671_at 1.15 1.1 −1.88 11.3 −1.22 2 −1.40 18 1367682_at 1.05 0.2 1.73 8.1 1.46 4.6 1.55 19 1367693_at 1.10 0.8 −1.68 10.5 −1.35 4.8 −1.26 20 1367701_at 2.32 9.1 2.36 10 3.01 13.9 2.81 21 1367716_at 1.04 0.3 1.01 0.1 −1.00 0 −1.01 22 1367721_at 1.02 0.1 1.41 4.7 1.40 4.5 1.68 23 1367722_at 1.17 0.9 1.23 1.5 −1.07 0.3 1.10 24 1367732_at 1.02 0.2 −1.21 3.1 −1.13 1.6 −1.23 25 1367733_at 1.39 0.4 1.75 0.9 −1.15 0.2 1.29 26 1367749_at 1.08 0.3 1.86 5.9 1.47 2.8 1.63 27 1367760_at 1.08 0.9 −1.05 0.5 1.08 0.9 1.07 28 1367765_at 1.12 0.5 1.58 4 1.31 1.8 1.32 29 1367774_at 1.14 0.5 2.15 7.5 1.37 1.9 −1.01 30 1367784_a_at 1.82 5 1.64 4 1.55 3.3 3.10 31 1367786_at 1.03 0.1 1.50 1.6 1.76 2.7 2.14 32 1367800_at 1.43 2.6 2.90 13.6 1.48 3.2 1.51 33 1367801_at 1.96 10 1.77 8.5 1.65 7 2.21 34 1367807_at 1.24 1.5 1.71 6.3 1.07 0.3 1.38 35 1367814_at −1.02 0.1 1.10 0.3 −1.12 0.4 −1.20 36 1367823_at 1.10 0.4 1.28 1.4 1.04 0.1 1.08 37 1367846_at −1.08 0.3 −1.57 3.8 −1.92 6.6 −2.29 38 1367850_at 1.28 0.6 2.19 3.9 2.72 5.7 4.07 39 1367859_at 1.06 0.2 −1.19 0.8 −1.25 1.2 1.07 40 1367881_at 1.10 0.5 1.75 8 1.40 3.7 1.89 41 1367902_at −1.09 0.5 1.31 2.9 1.20 1.6 1.52 42 1367905_at 1.02 0 −1.14 0.4 −1.01 0 1.37 43 1367914_at −1.01 0 −1.80 8.4 −1.66 6.7 −1.49 44 1367930_at 1.97 1 −2.18 1.3 1.80 0.9 1.29 45 1367940_at 1.75 4.5 2.25 8.5 1.89 5.9 1.40 46 1367942_at 1.06 0.1 1.27 0.8 1.97 4 1.23 47 1367948_a_at −1.81 2 1.60 1.5 2.15 3.2 4.20 48 1367959_a_at 1.24 0.8 2.43 6.9 1.75 3.4 1.61 49 1367973_at 2.07 4.2 1.64 2.7 1.22 0.7 −1.35 50 1367974_at 1.32 0.8 1.17 0.4 1.53 1.6 2.03 51 1367998_at 1.34 0.3 8.01 5.9 14.64 8.6 21.25 52 1368000_at −1.39 0.8 6.11 11.1 6.68 11.9 5.20 53 1368049_at −1.07 0.4 −1.52 6 −1.18 1.4 1.18 54 1368052_at −1.00 0 −1.11 0.1 3.25 2.1 3.77 55 1368057_at −1.01 0 1.08 0.3 1.30 1.8 1.10 56 1368078_at 1.13 0.2 −3.65 4.6 −2.85 3.3 −6.70 57 1368079_at 1.56 1.7 −1.02 0 1.89 3.4 1.73 58 1368089_at 1.02 0.1 1.31 1.4 2.00 5.9 2.44 59 1368097_a_at −1.10 0.2 1.70 1.9 1.44 1.1 3.22 60 1368103_at 1.25 0.6 4.52 11.4 2.34 5 2.38 61 1368106_at 1.14 0.3 1.16 0.3 2.09 3 2.59 62 1368145_at −2.50 2.3 −1.01 0 −1.11 0.1 −2.38 63 1368173_at −1.32 2.7 −1.50 5.2 −1.16 1.1 −1.15 64 1368183_at −1.19 1.2 1.22 1.5 1.53 4.9 1.24 65 1368200_at 1.65 2.6 −1.26 0.8 −1.85 3.8 −1.22 66 1368221_at 1.18 0.8 1.11 0.4 1.29 1.6 1.21 67 1368223_at −1.13 0.3 2.80 7.3 2.20 4.8 1.55 68 1368259_at 1.22 0.6 1.75 3.1 1.61 2.4 −1.01 69 1368280_at 1.21 0.6 1.67 2.8 1.36 1.3 1.14 70 1368281_at −1.29 1.1 1.00 0 1.24 0.9 1.29 71 1368322_at 1.04 0.1 2.76 10.8 1.36 1.7 1.55 72 1368332_at 1.05 0.1 −2.15 2.5 1.18 0.3 2.88 73 1368347_at 1.42 0.5 1.70 1 3.15 3.2 10.74 74 1368370_at 1.04 0.1 1.13 0.4 1.11 0.3 1.34 75 1368393_at 2.23 3.6 6.83 13.6 4.44 9.7 3.83 76 1368395_at 2.51 1.7 4.46 3.9 4.05 3.6 4.95 77 1368404_at 1.01 0 −1.15 0.7 −1.07 0.3 1.40 78 1368419_at 1.42 1.4 2.32 5.9 1.67 2.7 1.89 79 1368420_at −1.14 0.4 1.09 0.2 −1.04 0.1 −1.02 80 1368430_at 1.12 0.8 1.57 6.7 1.41 4.4 1.67 81 1368448_at 1.38 2.5 1.44 3.2 1.36 2.4 1.56 82 1368464_at 2.98 2.3 1.54 0.6 3.36 2.9 7.11 83 1368474_at −1.01 0 1.29 1.8 1.17 0.9 −1.04 84 1368519_at 1.89 0.8 8.51 5.7 11.18 6.8 8.19 85 1368612_at 1.26 0.7 −1.02 0.1 1.30 0.9 1.36 86 1368655_at 1.31 2 1.59 5.1 1.08 0.4 1.10 87 1368657_at −1.15 0.4 1.51 2 −1.08 0.2 −1.33 88 1368731_at −1.68 0.9 12.95 10.4 3.30 3.3 3.16 89 1368771_at 1.49 2.4 2.21 7.4 1.95 5.8 2.63 90 1368813_at 1.48 1.6 2.44 5.9 1.18 0.5 2.11 91 1368851_at 1.19 0.9 −1.08 0.3 1.06 0.2 1.41 92 1368885_at 1.20 0.6 2.37 6.6 1.58 2.5 1.44 93 1368989_at 1.15 0.4 −2.05 4.4 −1.74 2.9 −1.85 94 1369006_at −1.13 0.3 −1.10 0.2 1.27 0.8 1.24 95 1369044_a_at 1.10 0.2 2.50 4.6 2.28 3.9 3.33 96 1369065_a_at −1.03 0.1 1.66 7.2 1.26 2.1 1.15 97 1369087_at −1.19 0.6 1.57 2.6 1.34 1.3 1.11 98 1369166_at 1.31 0.3 3.08 2.4 6.04 5 3.05 99 1369269_at −1.20 0.9 1.06 0.2 1.23 1.2 1.19 100 1369294_at 2.87 4.8 9.37 14.8 3.19 5.6 3.48 101 1369313_at −1.19 0.4 −1.40 1.1 1.19 0.4 1.06 102 1369422_at 1.13 0.4 −1.04 0.1 −1.15 0.5 1.03 103 1369425_at −1.33 1.3 −1.13 0.4 −1.13 0.4 1.04 104 1369484_at 1.08 0.3 −1.81 5.3 −1.51 2.8 −1.14 105 1369621_s_at 1.28 2.1 −1.10 0.6 −1.06 0.3 −1.18 106 1369633_at 1.22 0.6 −2.11 4.5 −1.07 0.2 1.91 107 1369651_at −1.01 0 −1.19 0.6 −1.20 0.7 1.15 108 1369652_at 1.16 0.3 1.19 0.4 −1.36 0.8 1.33 109 1369703_at −1.30 1.4 1.78 5.2 1.48 2.9 1.06 110 1369735_at −1.28 1.5 1.29 1.8 −1.01 0 −1.13 111 1369815_at −1.46 1.2 3.37 7.9 2.42 4.9 3.38 112 1369895_s_at 2.79 3.2 2.21 2.3 2.76 3.4 4.01 113 1369897_s_at 1.22 3 −1.06 0.6 −1.10 1.1 1.01 114 1369926_at 1.10 0.3 1.80 4.9 1.48 2.6 1.70 115 1369931_at 1.20 1.8 −1.17 1.6 −1.07 0.5 1.24 116 1369947_at 1.35 1.8 1.23 1.1 −1.10 0.4 −1.05 117 1369950_at 1.08 0.5 −1.39 5.1 −1.09 0.7 1.14 118 1369953_a_at 2.44 3.2 2.96 4.6 1.75 1.7 1.49 119 1369955_at 1.25 1.1 −1.01 0 −1.02 0.1 2.52 120 1369956_at 1.13 1.3 1.55 9.8 1.29 4.4 1.34 121 1369958_at 1.03 0.1 1.30 2.2 1.24 1.6 1.54 122 1369960_at −1.16 1.2 1.09 0.6 −1.11 0.8 −1.07 123 1369961_at 1.23 1.2 3.66 18.4 2.12 9.2 1.76 124 1369973_at 1.50 3.4 1.69 5.4 1.27 1.6 1.81 125 1370007_at 1.47 4.3 −1.09 0.5 −1.05 0.3 1.13 126 1370023_at 1.05 0.2 −1.29 1.7 1.05 0.2 −1.18 127 1370048_at −1.06 0.1 1.66 2.9 1.91 4.2 1.48 128 1370051_at 2.01 1.6 2.12 1.9 1.16 0.2 2.58 129 1370057_at −1.06 0.3 1.18 1.1 1.10 0.5 1.26 130 1370062_at 1.08 0.3 1.04 0.2 1.39 2.5 1.53 131 1370073_at 1.04 0.2 1.01 0 −1.08 0.4 −1.16 132 1370097_a_at 1.13 0.4 1.87 3.9 2.12 5.2 1.35 133 1370172_at 1.20 1.4 1.57 6 1.08 0.5 1.13 134 1370184_at 1.05 0.4 −1.22 3.3 −1.29 4.8 −1.10 135 1370221_at 1.16 0.4 2.24 4.6 1.79 2.8 1.83 136 1370244_at 1.51 4.2 −1.11 0.6 −1.18 1.1 −1.49 137 1370248_at −1.21 0.5 3.15 7.1 5.25 11.9 3.74 138 1370256_at 1.01 0 1.42 2.4 1.21 1 2.39 139 1370290_at 1.12 0.8 −1.43 4.5 −1.21 1.7 1.31 140 1370301_at −1.07 0.3 1.83 9.3 1.46 4.7 1.66 141 1370309_a_at 1.15 0.8 −1.47 4.3 −1.23 1.6 −1.33 142 1370312_at 1.33 0.9 2.60 6 2.81 6.7 3.80 143 1370328_at −1.08 0.3 −1.40 2.4 −1.50 3.2 1.04 144 1370408_at 1.73 5.2 1.41 2.7 1.03 0.1 1.13 145 1370442_at −1.06 0.1 1.58 1.2 1.06 0.1 1.33 146 1370570_at −1.16 0.5 −1.08 0.3 1.19 0.7 1.23 147 1370613_s_at 3.20 4.7 3.58 5.8 2.34 3.1 3.76 148 1370624_at 1.03 0 1.20 0.3 1.12 0.2 1.39 149 1370633_at −1.21 0.2 5.48 4.9 6.00 5.4 4.07 150 1370634_x_at 1.46 0.5 5.31 5.4 3.71 3.7 3.14 151 1370642_s_at 1.05 0.2 −1.41 3.9 −1.36 3.3 −1.24 152 1370693_a_at −1.22 1 1.69 4.7 1.56 3.7 1.38 153 1370802_at −1.03 0.1 −1.14 0.7 −1.09 0.4 −1.32 154 1370809_at 1.22 1.7 −1.54 5.9 −1.18 1.3 −1.25 155 1370828_at −1.86 2.6 −1.31 0.8 −1.07 0.1 −1.35 156 1370838_s_at 1.02 0.1 1.74 13.5 1.19 2.5 1.28 157 1370845_at −1.06 0.2 1.39 2.8 1.35 2.4 1.86 158 1370854_at 1.09 0.2 1.03 0.1 1.20 0.7 −1.55 159 1370855_at 1.13 0.8 −1.22 1.8 −1.49 5.3 −1.31 160 1370862_at 1.63 2.6 2.57 7.6 2.24 6 3.27 161 1370892_at 1.35 0.9 2.53 5.4 2.04 3.6 3.48 162 1370905_at 1.24 1.8 1.64 7.2 1.41 4.1 1.85 163 1370927_at 1.46 1.5 1.28 0.9 1.93 3.7 1.75 164 1370950_at 1.25 0.8 2.11 5.7 1.97 4.9 1.99 165 1370954_at 1.05 0.2 1.03 0.1 1.24 1.6 1.58 166 1370956_at 1.73 3.9 2.64 9.9 1.77 4.5 1.30 167 1370963_at 1.14 0.6 −1.15 0.7 −1.25 1.2 −1.18 168 1371016_at −1.24 0.8 3.28 11 2.48 7.6 1.78 169 1371037_at −1.12 0.6 1.45 4.1 1.01 0.1 1.40 170 1371079_at 1.08 0.1 5.07 4 7.69 5.7 11.73 171 1371166_at 3.10 4.2 4.39 6.8 11.18 13.5 9.26 172 1371232_a_at 1.04 0.1 −1.03 0.1 −1.04 0.1 −1.13 173 1371246_at 1.05 0.2 −1.59 5.5 −1.34 2.7 −1.03 174 1371250_at 2.13 3.4 1.42 1.1 2.54 5 3.71 175 1371320_at −1.13 1.1 1.25 3 1.12 1 1.43 176 1371329_at 1.08 0.5 −1.50 6.3 −1.23 2.3 −1.02 177 1371341_at 1.29 1.7 −1.35 2.4 −1.24 1.5 −1.01 178 1371349_at 1.01 0 −1.06 0.2 −1.14 0.6 1.14 179 1371356_at 1.18 0.8 1.17 0.8 1.28 1.6 2.12 180 1371360_at 1.08 0.2 1.84 5.1 1.85 5.2 2.76 181 1371369_at 1.17 0.7 −1.08 0.3 −1.41 2.3 1.35 182 1371392_at −1.00 0 1.10 0.5 1.30 2 1.69 183 1371440_at 1.01 0 1.14 0.6 1.08 0.3 1.60 184 1371447_at 1.88 1.7 5.44 8.1 3.60 5.3 6.31 185 1371487_at 1.19 1.1 −1.31 2.3 −1.20 1.3 1.11 186 1371498_at 1.03 0.2 −1.42 6.1 −1.16 1.7 −1.04 187 1371507_at 1.02 0.1 1.03 0.2 −1.03 0.1 −1.03 188 1371525_at −1.05 0.2 1.48 4.4 1.34 2.8 1.20 189 1371541_at −1.06 0.3 2.14 10.7 1.33 2.4 1.42 190 1371545_at 4.02 10.2 6.05 15.1 6.82 16.3 8.61 191 1371572_at 1.23 1.7 1.39 3.8 1.53 5.6 1.95 192 1371575_at 1.11 0.8 −1.49 6.3 −1.45 5.5 −1.23 193 1371596_at 1.11 1.1 −1.15 1.9 −1.04 0.3 1.10 194 1371600_at 1.05 0.3 −1.17 1.2 1.04 0.2 1.11 195 1371602_at 1.10 0.6 1.66 8.9 1.31 3.5 1.13 196 1371618_s_at −1.34 0.4 2.41 2.2 1.30 0.4 1.97 197 1371625_at 1.19 1.1 1.34 2.6 1.23 1.5 1.53 198 1371632_at 1.10 0.5 −1.07 0.3 −1.10 0.5 1.31 199 1371641_at 1.11 1.2 −1.29 5.1 −1.11 1.3 1.13 200 1371691_at −1.19 0.9 1.61 4.4 1.19 1 1.05 201 1371694_at 1.13 0.9 −1.08 0.5 1.03 0.2 1.40 202 1371727_at 1.46 7.3 −1.24 3.3 −1.24 3.4 −1.36 203 1371790_at −1.36 4.2 −1.07 0.5 1.00 0 −1.03 204 1371824_at 1.25 0.7 1.02 0 1.66 2.6 1.78 205 1371840_at 1.21 0.7 1.87 4.6 1.94 5.1 2.75 206 1371849_at 1.19 1 −1.59 4.6 −1.42 3 −1.50 207 1371894_at −1.03 0.2 1.23 2.7 1.15 1.5 1.49 208 1371924_at 1.08 0.1 1.23 0.5 1.92 2.9 2.50 209 1371926_at 1.14 1.4 1.69 12.2 1.50 8.7 1.81 210 1371951_at 1.66 1.9 1.05 0.1 1.45 1.3 1.50 211 1371986_at −1.23 1.5 −1.18 1.1 1.12 0.7 1.59 212 1371988_at 1.31 1.5 1.85 5.7 1.71 4.6 1.81 213 1371999_at −1.02 0.1 −1.40 3.3 1.02 0.1 −1.06 214 1372005_at −1.44 2.9 −1.60 4.7 1.02 0.1 −1.06 215 1372006_at 1.22 1 1.16 0.7 1.46 2.9 1.62 216 1372028_at 1.06 0.3 −1.05 0.3 1.12 0.9 1.42 217 1372031_at 1.50 4.5 1.16 1.1 1.05 0.2 1.21 218 1372050_at −1.02 0.1 1.05 0.3 −1.00 0 1.15 219 1372068_at 1.08 0.6 1.03 0.2 1.02 0.1 −1.08 220 1372084_at 1.30 0.9 −1.55 2.2 1.08 0.2 1.30 221 1372084_at 1.30 0.9 −1.55 2.2 1.08 0.2 1.30 222 1372088_at 1.30 2 1.01 0 −1.06 0.3 −1.08 223 1372101_at 1.73 2.7 2.02 4.2 1.87 3.5 2.65 224 1372104_at 1.03 0.1 −1.08 0.3 1.00 0 −1.03 225 1372111_at −1.03 0.1 −2.81 10.9 −1.52 2.8 −1.02 226 1372127_at −1.09 0.8 −1.24 3.1 −1.00 0 −1.00 227 1372136_at 1.07 0.7 1.32 6.5 1.28 5.3 1.41 228 1372164_at 1.03 0.2 1.62 9.2 1.20 2.1 1.41 229 1372213_at −1.75 3.1 1.04 0.1 1.15 0.5 1.12 230 1372223_at 1.30 1.1 1.85 4.5 1.01 0 −1.13 231 1372234_at 1.05 0.3 −1.12 1.2 1.00 0 1.08 232 1372251_at 1.06 0.6 1.06 0.6 1.03 0.3 1.06 233 1372254_at 1.44 2.2 3.46 14.3 2.19 7.7 3.16 234 1372256_at 1.17 0.6 −1.29 1.2 −1.23 0.9 −1.17 235 1372266_at 1.11 0.3 1.99 4.6 1.59 2.5 1.07 236 1372294_at 1.06 0.4 −1.05 0.3 −1.04 0.3 1.12 237 1372311_at −1.13 0.9 −1.38 4.5 −1.22 2.1 −1.10 238 1372326_at −1.38 1.6 1.21 0.8 1.81 4.4 2.39 239 1372410_at −1.07 0.2 1.04 0.1 1.06 0.2 1.15 240 1372439_at 1.07 0.3 2.13 10.5 1.42 3.3 1.75 241 1372466_at 1.35 3.2 1.30 2.8 1.17 1.3 1.53 242 1372518_at 1.47 1.4 2.92 7.2 2.87 7 5.62 243 1372549_at −1.52 1.5 1.07 0.1 1.83 2.9 2.19 244 1372569_at 1.02 0.1 −1.40 4.6 −1.20 1.8 1.07 245 1372579_at 1.43 1.6 2.12 5.5 2.38 6.9 2.45 246 1372585_at 1.01 0 −1.05 0.1 1.40 1.1 2.53 247 1372587_at −1.45 1.3 1.20 0.5 1.25 0.7 −1.07 248 1372593_at 1.25 1.4 1.55 4.3 1.29 1.9 1.22 249 1372610_at 1.09 0.4 −1.03 0.1 1.02 0.1 1.26 250 1372613_at 1.10 0.2 −1.30 1 −1.10 0.3 −1.04 251 1372615_at 1.19 0.6 2.59 7.6 1.49 2 1.65 252 1372638_at −1.17 1.3 1.11 0.8 1.22 2 1.58 253 1372727_at 1.16 0.4 1.79 2.8 1.60 2 1.62 254 1372729_at 3.87 10.4 1.76 3 1.53 1.9 −1.02 255 1372761_at −1.08 0.1 1.61 1.1 3.29 4.3 3.24 256 1372769_at −1.16 1.3 −1.01 0 1.15 1.3 1.28 257 1372776_at 1.12 0.6 1.75 6.2 1.64 5.1 1.88 258 1372818_at 1.09 0.4 1.34 2.7 1.23 1.5 1.22 259 1372835_at 1.17 0.9 1.68 6.1 1.62 5.4 1.97 260 1372836_at −1.01 0 1.52 4.8 1.20 1.3 1.25 261 1372838_at −1.40 4.3 −1.02 0.1 1.18 1.5 −1.07 262 1372844_at 1.85 2.7 1.87 3 1.87 3 2.20 263 1372861_at 1.14 0.7 −1.09 0.4 1.04 0.2 1.58 264 1372919_at −1.30 3 1.15 1.3 1.02 0.1 1.01 265 1372947_at −1.04 0.2 −1.35 3.3 −1.26 2.2 −1.31 266 1373000_at 1.10 0.3 −2.64 7.8 −1.37 1.4 −1.22 267 1373062_at 1.45 2.1 2.51 8.8 2.38 8.1 3.05 268 1373079_at 1.02 0.1 1.52 4.6 1.57 5.2 1.90 269 1373102_at −1.02 0 1.01 0 −1.04 0.1 1.06 270 1373140_at 1.44 2.9 1.89 7.3 1.95 7.8 2.23 271 1373151_at 1.03 0.2 1.02 0.1 −1.12 0.7 −1.22 272 1373180_at 1.10 0.4 −1.47 3.4 −1.17 0.9 −1.44 273 1373181_at 1.18 0.6 1.31 1.3 1.41 1.9 1.40 274 1373217_at −1.05 0.3 1.42 4.5 1.31 3 1.07 275 1373222_at −1.03 0.2 1.08 0.6 −1.08 0.5 1.14 276 1373245_at 1.09 0.6 2.39 18 1.82 12.1 2.24 277 1373258_at −1.06 0.3 1.39 3.5 1.26 2 1.49 278 1373286_at −1.18 1.1 1.20 1.4 −1.10 0.5 −1.35 279 1373301_at 1.12 0.6 1.21 1.3 1.61 5.3 1.93 280 1373310_at 2.06 5.9 1.57 3.3 1.63 3.7 2.09 281 1373346_at 1.15 1 1.10 0.6 1.07 0.4 −1.19 282 1373363_at −1.08 0.4 −1.08 0.4 −1.60 5.3 −1.96 283 1373374_at 1.01 0.1 1.37 4.1 1.12 0.9 1.49 284 1373379_at 1.04 0.2 −1.05 0.3 −1.15 1.3 −1.16 285 1373401_at −1.15 0.2 3.10 4.2 8.17 10.5 11.91 286 1373415_at 3.43 4.4 1.85 1.6 2.10 2.2 3.49 287 1373463_at 1.10 0.5 1.01 0.1 1.17 1.1 1.63 288 1373466_at 1.15 0.7 −1.12 0.6 1.00 0 −1.22 289 1373483_at −1.41 1.3 1.10 0.2 1.44 1.5 1.46 290 1373487_at 1.20 0.4 1.76 2.3 2.03 3.2 2.60 291 1373488_at 1.14 1.2 −1.55 8 −1.27 3.1 −1.22 292 1373515_at −1.03 0.1 1.16 1.3 1.11 0.8 −1.07 293 1373533_at −1.08 0.4 1.31 2.7 1.40 3.8 2.14 294 1373554_at 1.38 2.4 1.25 1.5 −1.07 0.3 1.10 295 1373557_at 1.21 1.2 −1.87 7.9 −1.17 1 −1.28 296 1373590_at −1.04 0.2 1.49 4.2 1.23 1.5 1.13 297 1373592_at −1.23 1 1.24 1.2 1.63 4.1 1.10 298 1373599_at 1.09 0.3 −1.07 0.2 1.10 0.3 1.08 299 1373615_at 1.07 0.2 2.84 9.7 1.54 2.5 1.40 300 1373628_at 1.89 4 −1.78 3.6 1.09 0.3 −1.48 301 1373661_a_at −1.95 2.2 1.97 2.4 2.33 3.4 1.69 302 1373666_at 1.02 0 2.21 4.4 2.04 3.7 2.50 303 1373683_at 1.36 2.4 2.03 9.4 1.90 8.2 1.81 304 1373695_at −1.01 0.1 1.26 2.7 1.21 2 1.50 305 1373696_at 1.07 0.2 1.04 0.1 1.27 1 1.52 306 1373740_at 1.11 0.1 6.22 4 1.35 0.3 2.41 307 1373751_at −1.10 0.3 1.74 4 1.35 1.5 1.53 308 1373829_at −1.02 0 1.18 0.5 −1.20 0.5 −1.67 309 1373847_at 3.18 9.9 1.37 1.5 2.01 5 1.78 310 1373874_at 1.02 0.1 1.13 0.7 1.05 0.2 1.03 311 1373881_at −1.09 0.4 3.13 17.7 2.66 14.8 2.90 312 1373911_at 1.19 0.6 −2.76 8.8 −1.24 0.8 −1.27 313 1373957_at −1.14 0.4 1.07 0.2 −1.18 0.5 −1.91 314 1373970_at 5.03 3.8 30.48 12.2 8.29 6.2 10.63 315 1374013_at 1.09 0.5 1.09 0.5 1.25 1.7 1.24 316 1374034_at 1.08 0.4 −1.58 4.6 −1.38 2.7 1.32 317 1374057_at −1.08 0.4 −1.18 1.1 −1.04 0.2 −1.11 318 1374061_at 1.22 1 2.13 8.1 1.79 5.5 1.73 319 1374104_at 1.36 1.1 1.34 1.1 2.21 5.2 2.84 320 1374118_at −1.24 2.2 −1.42 5 −1.12 0.9 −1.06 321 1374129_at 1.61 4.1 1.18 0.9 1.14 0.6 −1.06 322 1374134_at −1.22 1.1 −1.06 0.2 1.28 1.6 1.13 323 1374171_at 1.00 0 3.78 7.2 2.27 3.4 1.88 324 1374172_at −1.40 0.6 1.08 0.1 1.99 1.9 3.24 325 1374176_at −1.12 0.3 1.47 1.6 −1.47 1.6 1.16 326 1374207_at 1.12 0.3 2.75 8 6.19 17.3 5.11 327 1374247_at 3.60 3.1 2.25 1.6 4.11 3.9 3.26 328 1374266_at 1.09 0.1 1.13 0.2 1.76 1.3 2.96 329 1374273_at −1.56 1.1 −1.02 0 1.57 1.2 1.18 330 1374276_at −1.07 0.1 1.01 0 −1.20 0.6 −1.08 331 1374284_at −1.19 0.6 1.30 1.1 −1.11 0.3 −1.27 332 1374285_at −1.02 0.1 −1.59 5 −1.18 1 −1.24 333 1374306_at 1.15 0.4 1.27 0.8 1.12 0.3 1.18 334 1374320_at 1.19 0.5 2.57 7.1 3.92 11.9 2.68 335 1374399_at 1.30 1.5 −1.41 2.4 −1.05 0.2 −1.16 336 1374474_at 1.31 2.4 2.16 12.3 1.85 9 2.05 337 1374477_at 1.19 1.3 −1.05 0.2 1.35 3.1 1.29 338 1374479_at −1.03 0.1 −1.11 0.5 1.14 0.7 −1.23 339 1374529_at 1.24 0.5 6.62 12.2 4.09 8.2 3.87 340 1374531_at 1.08 0.2 1.83 5 1.51 2.7 2.01 341 1374575_at −1.04 0.1 1.31 1.1 1.08 0.2 1.21 342 1374586_at 1.07 0.2 1.21 0.9 1.41 2.1 1.72 343 1374626_at 1.06 0.1 4.75 5.5 2.48 2.4 4.11 344 1374635_at −1.77 0.7 3.70 2.5 1.56 0.5 2.19 345 1374678_at −1.16 0.4 −1.12 0.3 1.09 0.2 2.33 346 1374742_at −1.15 0.2 1.14 0.2 1.23 0.4 1.73 347 1374771_at −1.25 1.7 −1.23 1.6 −1.29 2.3 −1.13 348 1374779_at 1.23 0.3 2.25 2.3 2.11 2 1.89 349 1374816_at 1.93 2.8 1.02 0 1.68 2.1 1.30 350 1374849_at −1.20 0.5 2.41 6.2 2.46 6.4 1.89 351 1374868_at 1.30 1.2 1.18 0.7 1.01 0 −1.24 352 1374897_at 1.10 0.5 −1.54 5.7 −1.06 0.3 1.10 353 1374953_at 2.37 4.1 1.53 1.5 1.27 0.7 −1.04 354 1375028_at 2.95 10.1 1.77 4.5 1.82 4.8 1.31 355 1375051_at −1.28 1.3 1.06 0.2 1.00 0 −1.03 356 1375074_at −1.46 2.8 2.26 9.7 1.83 6.3 1.75 357 1375138_at 1.03 0.1 −1.66 3.7 −1.48 2.5 −1.32 358 1375144_at 1.02 0.1 1.28 2.3 −1.00 0 1.15 359 1375267_at 1.48 3 1.19 0.9 1.00 0 1.06 360 1375270_at −1.14 0.6 1.76 5.5 1.82 6 2.03 361 1375277_at −1.06 0.2 1.31 1.8 1.76 5.6 1.64 362 1375337_at 1.17 0.8 1.36 2.5 1.31 2.1 1.56 363 1375368_at −1.16 1.1 −1.04 0.2 −1.05 0.3 1.01 364 1375369_at −1.08 0.4 1.89 9.7 1.20 1.4 1.69 365 1375377_at 3.66 10.4 −1.05 0.1 −1.28 1 1.49 366 1375420_at 1.67 3 −1.25 0.9 1.29 1.1 1.82 367 1375424_at 1.16 1.2 −1.43 5 −1.27 2.6 −1.45 368 1375463_at −1.15 0.8 −1.02 0.1 −1.01 0 1.07 369 1375473_at −1.17 0.5 1.46 1.9 2.01 4.8 1.72 370 1375657_at 1.50 2.6 1.31 1.5 1.47 2.6 1.57 371 1375719_s_at 1.51 1.6 −1.12 0.3 −1.11 0.3 1.33 372 1375721_at −1.06 0.2 1.66 5.3 1.20 1.1 1.26 373 1375739_at 1.17 1.5 −1.35 4.5 −1.13 1.1 −1.20 374 1375862_at 1.00 0 −1.14 0.9 −1.03 0.1 1.17 375 1375898_at 1.15 1.2 1.10 0.8 1.05 0.4 1.21 376 1375951_at 1.40 1.3 6.70 17.6 2.66 7.3 2.13 377 1376004_at 1.17 0.9 1.05 0.2 1.20 1.2 1.20 378 1376045_at 1.06 0.5 −1.11 1 1.12 1.1 1.48 379 1376055_at −1.27 1.4 −1.79 6.1 −1.13 0.6 −1.23 380 1376099_at 1.19 0.7 1.13 0.5 1.06 0.2 2.00 381 1376106_at −1.27 0.7 1.10 0.2 1.30 0.9 1.65 382 1376128_at 1.47 3.2 1.85 7 1.58 4.5 1.67 383 1376182_at 1.06 0.2 1.21 1.2 1.24 1.4 1.70 384 1376265_at −1.39 2.1 1.60 4 1.53 3.4 1.94 385 1376570_at −1.00 0 −1.17 2.7 −1.07 0.7 −1.07 386 1376574_at 1.81 2.8 4.48 11.8 3.67 9.7 3.94 387 1376583_at −1.13 0.6 −1.06 0.2 1.19 1 −1.04 388 1376624_at −1.81 3 1.62 2.3 2.02 4.2 1.58 389 1376631_at 1.34 2.8 1.25 2 1.19 1.4 1.30 390 1376640_at 1.25 1.2 2.13 8.5 1.23 1.2 1.54 391 1376655_at −1.06 0.3 −1.30 2.4 1.02 0.1 1.15 392 1376678_at 1.09 0.2 1.01 0 −1.02 0 1.01 393 1376754_at 1.02 0.1 −1.53 6.1 −1.17 1.3 −1.06 394 1376775_at −1.55 2.5 −1.06 0.2 1.23 0.8 1.48 395 1376786_a_at −1.07 0.3 1.48 3.8 1.31 2.1 1.54 396 1376788_at 1.30 0.8 2.58 6.9 3.28 9.5 2.58 397 1376848_at −1.01 0 1.13 0.4 1.27 1 1.11 398 1376858_at −1.48 1.6 −1.04 0.1 1.01 0 −1.08 399 1376919_at 1.03 0.1 1.16 1 −1.19 1.4 −1.14 400 1377023_at −1.05 0.1 3.48 4.2 2.03 1.7 2.57 401 1377369_at 1.41 3.5 1.28 2.3 −1.01 0 −1.06 402 1377390_at 1.46 2.5 1.69 4.4 1.01 0 1.16 403 1377595_at 1.72 3.8 1.20 0.9 1.00 0 −1.06 404 1377625_at 1.18 0.8 1.12 0.6 −1.10 0.5 −1.16 405 1377630_at 1.32 0.6 1.20 0.4 2.54 4 2.57 406 1377671_at −1.41 1.5 3.34 11.6 3.72 13 5.48 407 1377697_at 1.08 0.2 −1.51 2.8 1.06 0.2 1.80 408 1377702_at −1.19 0.6 1.15 0.5 1.33 1.4 1.36 409 1377723_at −1.10 0.5 1.13 0.8 1.10 0.6 1.19 410 1377862_at 1.63 1.3 2.42 3.9 2.07 2.8 2.12 411 1377869_at −1.64 3.6 1.04 0.1 1.10 0.4 −1.33 412 1377950_at 1.05 0.1 −1.34 0.8 1.51 1.3 2.49 413 1377994_at −2.06 1.9 2.93 4.1 1.80 1.6 1.20 414 1378134_at 1.04 0.1 1.03 0 1.90 2.9 −1.03 415 1378282_at −1.15 0.7 −1.05 0.3 1.22 1.7 1.38 416 1378305_at 2.76 4.5 1.17 0.4 2.08 3 2.10 417 1378321_at −1.02 0 1.20 0.6 −1.22 0.7 −1.53 418 1378342_at −1.04 0.1 1.46 2.3 1.17 0.6 1.32 419 1378440_at −1.47 2.5 1.04 0.2 −1.07 0.3 −1.03 420 1378507_at −1.25 0.9 −1.98 6.2 −1.28 1.3 −1.25 421 1378526_at 1.02 0 1.14 0.5 1.10 0.3 1.05 422 1378925_at −1.12 0.3 2.68 7 1.14 0.4 −1.02 423 1379294_at −1.24 1.4 −1.08 0.4 −1.09 0.4 1.05 424 1379322_at 1.06 0.4 1.00 0 1.07 0.5 −1.33 425 1379331_at −2.04 1.2 −1.74 0.9 1.05 0.1 2.93 426 1379335_at −1.08 0.5 −1.03 0.2 1.21 1.9 −1.02 427 1379345_at 1.15 0.6 −1.44 2.8 −1.40 2.4 −1.31 428 1379461_at −1.06 0.2 1.06 0.2 1.09 0.4 1.01 429 1379497_at −2.40 0.9 1.27 0.2 −2.15 0.8 −6.64 430 1379604_at 1.07 0.2 1.45 2.3 1.63 3.4 1.73 431 1379772_at −1.52 0.7 −1.09 0.1 1.03 0 2.85 432 1379790_at −1.38 1.4 1.09 0.3 1.13 0.4 1.33 433 1379799_at 1.37 0.7 1.02 0 1.43 0.9 1.92 434 1379847_at −1.08 0.2 −1.16 0.7 −1.10 0.4 1.26 435 1379882_a_at 1.03 0.1 −1.06 0.2 1.15 0.4 1.67 436 1379935_at 1.66 1.9 2.63 6.2 1.40 1.2 1.50 437 1380089_at 1.30 0.5 −1.35 0.8 −1.12 0.2 −1.55 438 1380110_at 1.01 0 2.72 8.9 2.02 5.3 2.09 439 1380318_at −1.10 0.1 2.64 3.5 5.00 7.5 3.69 440 1380474_at 2.45 3.5 −1.12 0.2 1.06 0.1 1.44 441 1380617_at 1.82 1.1 5.79 6.9 8.86 9.4 5.67 442 1380688_at 1.57 0.9 1.45 0.8 2.16 2.3 2.39 443 1380728_at 1.16 0.4 1.18 0.5 1.03 0.1 1.22 444 1380908_at −1.37 0.6 −1.57 1.2 1.05 0.1 −1.20 445 1381190_at 1.69 2.3 −2.00 4.2 −1.38 1.3 −1.01 446 1381305_at 1.04 0.2 1.28 2.9 1.32 3.6 1.51 447 1381311_at 1.48 0.6 2.21 2.1 2.06 1.8 4.48 448 1381335_at −1.62 0.5 −1.76 0.8 −2.08 1.2 −8.63 449 1381410_a_at 2.25 2.2 1.76 1.5 1.52 1 2.60 450 1381461_at 4.42 17 2.19 8.6 1.60 4 1.65 451 1381470_at −1.48 1.7 2.19 5.8 3.57 11.6 5.02 452 1381678_at −1.13 0.4 1.06 0.2 1.31 1.3 1.52 453 1381915_at 1.03 0.1 1.39 1.6 1.44 1.9 1.88 454 1381971_at 3.57 6.2 2.07 3.1 3.77 7.7 3.67 455 1381996_at −1.64 1.1 −1.85 1.8 −1.08 0.1 1.31 456 1382008_at −1.00 0 −1.39 6.2 −1.27 3.8 −1.39 457 1382017_at −1.42 0.4 −1.91 1 1.29 0.3 2.19 458 1382108_at 1.50 3 1.22 1.2 1.02 0.1 1.36 459 1382130_at 1.16 0.2 −1.51 0.9 1.03 0 1.38 460 1382138_at −1.60 1.6 1.19 0.5 1.23 0.6 1.63 461 1382181_at −1.14 0.6 1.25 1.5 −1.07 0.3 −1.00 462 1382212_at 1.05 0.1 1.74 3.8 1.32 1.3 1.13 463 1382296_at 1.12 0.2 3.91 7.8 1.99 3 1.67 464 1382375_at 1.12 0.4 1.44 2 1.48 2.1 1.15 465 1382404_at −1.42 0.9 1.63 1.7 2.56 4.8 2.38 466 1382431_at −1.31 0.4 3.64 5.1 2.56 3.1 2.72 467 1382482_at 1.54 4 1.11 0.5 1.33 2.3 1.53 468 1382536_at 1.08 0.3 1.46 2.8 1.63 4.2 2.17 469 1382571_at 1.80 1.3 1.62 1.2 1.26 0.4 1.99 470 1382628_at 1.27 1.1 1.30 1.5 1.47 2.7 1.39 471 1382680_at 1.38 1.4 1.10 0.3 −1.39 1.5 −1.86 472 1382692_at −1.45 1.2 −1.11 0.3 −1.41 1.3 −2.20 473 1382818_at −1.05 0.1 1.37 1.6 1.14 0.4 −1.12 474 1382995_at −1.44 3 1.05 0.2 −1.06 0.3 −1.02 475 1383019_at 1.17 0.2 2.35 1.9 5.52 5.5 3.43 476 1383073_at 1.10 1 −1.25 4.6 −1.16 2.3 −1.09 477 1383080_at 1.05 0.5 1.24 4.2 1.14 1.9 1.12 478 1383131_at −1.26 0.8 1.05 0.1 1.22 0.8 1.08 479 1383147_at −1.01 0 −1.35 3.8 1.13 1 1.08 480 1383193_at 1.03 0.1 −1.35 3.8 −1.19 1.6 −1.45 481 1383201_at 1.03 0.1 1.16 1.3 1.15 1.1 1.11 482 1383240_at 1.11 0.2 1.04 0.1 −1.03 0 1.45 483 1383247_a_at −2.24 1.8 1.14 0.2 6.92 8.2 3.89 484 1383261_at 1.52 2.4 −1.19 0.7 1.14 0.5 1.11 485 1383328_x_at 1.34 1.5 1.33 1.6 1.47 2.6 1.74 486 1383355_at −1.16 0.7 2.49 12.3 1.87 7.3 1.91 487 1383382_at −1.11 0.4 1.41 2.7 1.05 0.2 1.39 488 1383469_at 3.80 4 −1.05 0.1 1.68 1.1 1.98 489 1383484_at −1.01 0.1 1.11 1 1.15 1.6 1.06 490 1383489_at 1.35 1.6 1.68 4.6 2.07 7.7 2.38 491 1383498_at 1.09 0.4 1.52 5 1.30 2.4 1.39 492 1383516_at −1.31 1.4 −1.18 0.8 1.00 0 −1.14 493 1383533_at −1.01 0 1.16 1.1 1.07 0.4 1.22 494 1383574_at 1.10 0.6 1.56 6.4 1.24 2.1 1.31 495 1383641_at −1.25 1.1 1.61 3.9 1.14 0.6 1.12 496 1383644_at −2.08 0.6 1.08 0 −1.41 0.2 −2.13 497 1383662_at −1.13 0.7 1.57 5.5 1.20 1.3 1.65 498 1383776_at 1.40 3.1 1.12 0.7 −1.24 1.9 −1.45 499 1383785_at −1.43 1.5 1.06 0.2 1.20 0.7 1.04 500 1383824_at −1.31 0.4 −1.34 0.6 1.14 0.2 1.85 501 1383844_at 1.22 0.3 2.51 3.1 3.60 5.1 2.47 502 1383863_at 1.56 3.6 1.88 7.4 2.08 9.1 2.11 503 1383914_at −1.09 0.4 1.13 0.7 −1.29 2 −1.46 504 1383935_at −1.26 0.4 −1.28 0.4 1.41 0.7 1.96 505 1383949_at 1.16 0.9 1.47 3.8 1.64 5.7 1.81 506 1384051_at 1.08 0.2 2.05 5.3 1.56 2.5 1.71 507 1384165_at 2.01 0.8 3.60 2.5 1.81 0.8 1.63 508 1384183_at 2.12 4.7 −1.54 2.4 −1.29 1.1 −1.84 509 1384188_at −1.04 0.1 1.08 0.3 1.18 0.9 1.17 510 1384192_at −1.04 0.1 2.14 3.1 2.58 4.3 3.28 511 1384227_at 1.80 3.2 1.63 2.9 1.72 3.4 2.05 512 1384232_at −1.08 0.2 −1.18 0.6 −1.08 0.2 1.06 513 1384302_at −1.11 0.2 4.05 8.9 1.60 1.6 1.59 514 1384335_at 1.22 1.6 1.20 1.7 −1.02 0.1 1.52 515 1384381_at −1.47 1.1 4.10 8.8 2.55 5.2 2.59 516 1384392_at 2.79 3.7 2.71 4.2 2.29 3.1 −1.04 517 1384415_at 1.22 0.9 1.24 1.2 1.48 3 2.59 518 1384724_at 1.14 0.4 2.53 9 1.81 4.6 1.45 519 1384899_at 1.18 0.6 −1.25 1.1 1.03 0.1 1.11 520 1384900_at −1.07 0.3 1.06 0.2 −1.24 1.4 −1.00 521 1384907_at −1.21 0.3 1.80 1.9 1.26 0.5 1.31 522 1385057_at −2.01 1.6 −1.08 0.1 −1.13 0.2 1.48 523 1385359_at 1.55 0.9 2.05 2.4 1.73 1.5 2.91 524 1385397_at −1.31 0.5 5.42 8.6 3.44 5.4 4.40 525 1385444_at 2.06 0.7 4.67 2.1 7.07 3.1 7.91 526 1385506_at 1.14 0.3 −1.29 0.9 −1.29 0.9 −1.83 527 1385925_at 1.34 1.3 1.75 4.1 1.43 2.1 1.28 528 1385926_at 1.11 0.6 1.42 4.3 1.29 2.6 1.47 529 1386041_a_at 6.17 6.3 −3.15 3.3 1.55 0.8 2.55 530 1386080_at −1.37 1.5 −1.04 0.1 −1.14 0.5 −1.23 531 1386540_at −1.03 0.1 1.23 1 1.49 2.8 1.95 532 1386721_at 1.30 1.2 1.41 2.2 1.37 1.9 2.04 533 1386833_at −1.26 0.9 1.38 1.7 2.45 8.2 2.41 534 1386864_at 1.03 0.2 −1.07 0.6 1.05 0.4 1.05 535 1386866_at 1.14 1.8 1.00 0 −1.11 1.3 1.08 536 1386881_at 1.95 1.7 1.07 0.1 3.17 4.3 4.65 537 1386899_at 1.44 4.9 1.06 0.4 1.15 1.2 1.54 538 1386912_at 1.48 2.2 1.22 0.9 1.10 0.3 2.07 539 1386913_at 1.29 1.1 2.12 6.2 1.98 5.4 1.70 540 1386922_at −1.06 0.1 −1.02 0 1.31 0.4 1.88 541 1386937_at −1.00 0 1.03 0.1 −1.23 1 −1.02 542 1386938_at 1.61 2.8 1.35 1.5 1.37 1.6 1.35 543 1386940_at 1.08 0.5 1.33 3.4 −1.17 1.4 −1.18 544 1386948_at −1.06 0.2 −1.88 5.8 −1.49 2.9 −1.27 545 1387001_at −1.02 0.1 −1.23 2.1 1.03 0.2 1.19 546 1387005_at 1.05 0.1 2.10 4.2 1.63 2.2 1.74 547 1387018_at −1.06 0.2 −1.42 1.6 −1.09 0.2 −1.15 548 1387076_at 1.45 4 2.00 10.7 1.89 9.5 1.81 549 1387125_at −1.17 0.2 14.70 8.5 11.41 7.3 12.60 550 1387137_at −1.81 2.8 1.22 0.6 1.03 0.1 −1.34 551 1387153_at 1.11 0.4 1.55 3.7 1.47 3 1.65 552 1387154_at 1.16 0.2 2.45 3.3 2.35 3.1 1.84 553 1387160_at 1.71 1 1.55 0.8 2.12 1.7 3.30 554 1387197_at 1.02 0 −1.23 0.7 1.35 1.1 1.04 555 1387202_at 1.71 3.4 1.42 2.1 −1.18 0.7 1.10 556 1387219_at 4.53 3.2 3.91 3 4.57 3.5 7.93 557 1387259_at 1.35 2.1 1.52 3.9 1.42 2.9 1.82 558 1387270_at 1.22 0.3 4.87 5.4 4.95 5.5 5.05 559 1387273_at −1.67 1.7 −2.26 3.7 −3.21 6.4 −1.66 560 1387279_at 1.83 5.6 2.66 12 3.65 16.9 3.42 561 1387282_at 1.27 1.1 1.59 3.6 1.24 1.1 1.10 562 1387294_at 1.74 4.1 2.12 7 2.28 8 3.87 563 1387306_a_at −1.09 0.2 −2.06 4.4 −1.65 2.5 −1.70 564 1387343_at −1.08 0.2 2.88 9.7 1.89 4.6 2.82 565 1387344_at 1.12 0.5 1.28 1.7 1.16 0.8 1.41 566 1387348_at −1.03 0 3.67 4.9 2.09 2 −1.09 567 1387389_at −1.50 0.5 −1.89 1 −1.33 0.3 −2.08 568 1387395_at −1.37 2.5 1.77 6.6 1.23 1.4 2.06 569 1387402_at 1.60 2.9 −1.26 1 −1.16 0.6 1.10 570 1387530_a_at −1.52 3.5 1.59 4.2 1.19 1 1.07 571 1387547_a_at −1.87 1.8 1.51 1 2.80 4.2 3.66 572 1387548_at −1.30 1.2 −1.18 0.7 1.04 0.1 1.14 573 1387630_at 1.06 0.2 1.65 4 1.07 0.3 −1.10 574 1387648_at 2.74 2.2 6.04 5.8 8.50 7.5 11.79 575 1387675_at −1.12 0.2 2.48 5.2 3.54 8.5 5.14 576 1387759_s_at 1.12 0.4 1.87 5 1.42 2 1.54 577 1387789_at 1.07 0.2 1.05 0.2 1.22 0.9 1.14 578 1387805_at 1.24 1.1 1.04 0.1 1.60 3.9 1.60 579 1387808_at −1.27 1.6 1.64 5.9 1.39 3.1 1.42 580 1387817_at 1.20 0.5 1.02 0 2.05 4.1 1.55 581 1387843_at 1.89 1.5 4.57 6.3 2.73 3.3 3.83 582 1387856_at 1.07 0.4 1.22 1.9 1.10 0.6 1.43 583 1387870_at 1.10 0.3 2.20 6.3 1.92 4.7 3.27 584 1387871_at −1.07 0.5 −1.35 5.1 −1.17 1.8 1.01 585 1387885_at 1.27 2.7 1.52 6.9 1.13 1.1 1.40 586 1387892_at 1.12 0.8 −1.34 3.3 −1.22 1.8 −1.05 587 1387893_at 1.46 2.9 2.02 7.9 1.61 4.4 1.74 588 1387896_at 1.10 0.5 −1.16 1 1.10 0.5 −1.11 589 1387897_at −1.14 0.5 2.11 7.4 1.71 4.5 2.34 590 1387975_at −1.10 0.4 1.61 4.7 1.65 5.1 1.66 591 1387976_at 1.82 3.4 1.02 0 1.02 0 1.25 592 1388032_a_at −2.23 1.7 6.28 6.7 3.97 4.3 4.28 593 1388054_a_at 1.16 0.5 −1.32 1.3 −1.13 0.4 −1.05 594 1388089_a_at −1.06 0.3 −1.01 0 −1.13 0.8 −1.14 595 1388119_at 1.02 0.2 −1.39 9.7 −1.28 6.5 −1.00 596 1388120_at 1.18 2.1 −1.13 1.5 −1.35 5.8 −1.00 597 1388131_at −1.17 0.3 1.08 0.1 1.38 0.9 1.72 598 1388142_at 1.21 0.8 −1.35 1.7 −1.05 0.2 −1.26 599 1388143_at 1.03 0.1 −1.06 0.2 −1.41 2.9 −1.75 600 1388151_at −1.03 0.1 −1.09 0.4 1.15 0.7 1.70 601 1388155_at 1.27 0.6 −1.89 2.8 −2.20 4 −2.84 602 1388170_at −1.40 1.6 2.21 6.9 1.44 2.1 1.81 603 1388201_at 4.96 5.4 3.98 4.7 6.32 7.2 5.33 604 1388204_at 1.20 0.3 −1.13 0.2 −1.44 1 −1.47 605 1388218_at 1.16 0.4 −1.43 1.5 −1.18 0.5 1.02 606 1388243_at −1.15 0.7 1.46 3 −1.17 0.8 1.25 607 1388271_at 2.76 5.3 1.19 0.4 1.03 0.1 −1.09 608 1388312_at 1.28 1.3 1.21 0.9 1.04 0.1 1.45 609 1388318_at 1.03 0.1 −1.12 0.3 −1.06 0.1 1.29 610 1388335_at 1.19 2 −1.19 2.1 −1.21 2.4 1.08 611 1388348_at 1.16 1.2 1.47 5.3 1.17 1.4 1.15 612 1388356_at 1.22 1.1 1.03 0.1 1.49 3.4 1.89 613 1388392_at −1.03 0.2 −1.10 1.1 −1.05 0.4 1.11 614 1388397_at −1.13 0.7 −1.60 5.8 −1.18 1.1 −1.14 615 1388401_at 1.38 1.7 −1.06 0.2 1.33 1.5 1.30 616 1388449_at 1.14 1.3 −1.40 6 −1.37 5.5 −1.38 617 1388459_at −1.14 0.8 −1.14 0.9 −1.50 4.8 −1.83 618 1388486_at −1.06 0.5 1.06 0.5 1.06 0.5 −1.17 619 1388492_at 1.03 0.1 1.80 9.3 1.24 1.9 1.43 620 1388493_at −1.04 0.2 1.12 1 −1.11 0.9 −1.08 621 1388494_at 1.10 0.4 2.70 12.9 1.73 5.5 2.62 622 1388495_at 1.03 0.1 −1.21 1.6 −1.11 0.6 −1.22 623 1388521_at 1.04 0.2 −1.53 6.8 −1.16 1.3 −1.05 624 1388533_at 1.07 0.4 1.23 2.1 1.20 1.7 1.52 625 1388534_at 1.16 1.8 1.39 6.8 1.19 2.5 1.21 626 1388568_at −1.00 0 −1.12 1.4 −1.03 0.2 1.01 627 1388583_at −1.41 1 −1.77 2.4 1.12 0.3 2.72 628 1388602_at 1.35 0.6 2.08 2.4 2.45 3.3 5.91 629 1388618_at −1.09 0.3 −1.45 2.5 1.19 0.8 1.36 630 1388666_at 1.40 2.1 2.19 8 1.47 2.7 1.20 631 1388695_at 1.28 1.5 −1.15 0.7 1.01 0 1.43 632 1388699_at 1.08 0.4 1.24 1.8 1.14 0.9 1.62 633 1388700_at 1.09 0.5 1.18 1.4 1.06 0.3 1.19 634 1388703_at 1.91 6.6 2.72 14 2.61 13.4 2.72 635 1388705_at −1.04 0.2 −1.61 6.8 −1.29 2.6 −1.20 636 1388711_at 1.08 0.4 −1.05 0.2 1.15 0.9 1.25 637 1388715_at 1.04 0.3 −1.37 6.9 −1.15 1.9 1.16 638 1388728_at −1.10 0.8 1.03 0.2 1.03 0.2 −1.01 639 1388742_at −1.35 1.9 1.51 3.3 1.56 3.8 1.32 640 1388750_at −1.06 0.1 2.49 5.7 2.03 3.9 1.76 641 1388773_at −1.24 1 1.75 4.4 1.25 1.1 1.53 642 1388792_at 1.44 1.8 3.95 13.9 2.09 5.8 1.88 643 1388836_at −1.11 0.3 1.68 3.5 1.82 4.3 1.77 644 1388870_at 1.13 0.7 1.32 2.7 1.30 2.4 1.15 645 1388878_at 1.02 0.1 1.20 0.8 1.03 0.1 1.71 646 1388889_at −1.17 0.8 1.25 1.4 1.34 2.1 1.29 647 1388926_at 1.86 1.8 2.09 2.5 1.55 1.1 3.81 648 1388945_at −1.00 0 −1.10 0.6 −1.28 2.4 −1.45 649 1388955_at −1.10 0.7 −1.20 2.2 −1.09 0.7 1.19 650 1388970_at 1.27 0.5 3.87 6.9 4.39 7.9 4.41 651 1389018_at −1.07 0.1 1.26 0.5 1.45 1 2.74 652 1389039_at −1.15 0.9 1.07 0.4 1.04 0.2 1.19 653 1389040_at 1.20 1.1 1.10 0.5 1.08 0.4 −1.04 654 1389059_at −1.15 0.8 −1.01 0 1.04 0.2 1.34 655 1389103_at −1.25 1.4 −2.00 8.7 −1.23 1.4 −1.53 656 1389123_at 3.24 1.4 8.71 3.8 10.93 4.4 20.27 657 1389151_at 1.16 0.6 −1.17 0.7 1.02 0.1 1.74 658 1389153_at −1.23 2.1 −1.46 5.9 −1.08 0.5 −1.12 659 1389157_at −1.27 3 −1.09 0.7 1.21 2.2 1.04 660 1389186_at 1.29 0.8 1.57 2 2.16 4.6 2.87 661 1389207_at 1.10 0.5 −1.20 1.4 1.30 2.4 1.40 662 1389213_at −1.27 3 1.01 0.1 −1.02 0.1 −1.02 663 1389214_at 1.10 0.6 2.49 16.3 1.81 9.4 2.23 664 1389227_at −1.15 0.8 1.22 1.4 1.07 0.3 1.55 665 1389244_x_at −1.27 0.5 2.17 3.5 2.57 4.8 1.74 666 1389255_at 1.58 1 1.66 1.2 3.04 4.1 5.33 667 1389297_at 1.06 0.2 1.15 0.8 1.26 1.8 1.47 668 1389324_at 1.55 1.9 2.84 7.9 3.21 9.3 4.12 669 1389341_at 1.01 0 1.42 2.8 1.88 7 3.15 670 1389373_at 1.40 5.5 1.32 4.4 1.26 3.3 1.54 671 1389464_at 1.48 0.9 3.37 5.4 2.98 4.3 2.78 672 1389470_at 1.92 1.8 9.24 13.4 4.34 7.6 7.03 673 1389476_at 1.02 0.1 1.55 4.8 1.20 1.3 1.25 674 1389478_at −1.06 0.5 1.07 0.7 1.07 0.7 1.29 675 1389483_at 1.30 2.4 1.04 0.2 1.20 1.5 1.14 676 1389533_at 1.74 3.8 1.10 0.3 1.65 3.5 2.75 677 1389546_at 1.35 1.1 1.14 0.4 1.28 0.9 2.14 678 1389573_at −1.29 0.9 −1.41 1.6 −1.07 0.2 1.12 679 1389590_at 1.13 0.6 −1.00 0 −1.02 0.1 1.03 680 1389611_at 1.12 0.5 1.69 4.9 1.41 2.5 1.95 681 1389617_at 1.19 1.6 1.02 0.1 1.09 0.7 1.50 682 1389651_at −1.89 1.8 1.14 0.2 2.83 4.1 2.71 683 1389787_at 1.81 1.3 1.46 0.7 2.85 3.2 3.90 684 1389789_at 1.83 1.5 2.22 2.5 3.31 4.6 3.26 685 1389836_a_at −1.11 0.3 −1.76 4.5 −1.50 2.7 −1.48 686 1389883_at 1.22 1.7 −1.26 2.3 −1.13 0.9 −1.16 687 1389966_at 1.46 2.3 −1.07 0.2 −1.01 0 1.40 688 1390031_at −1.29 1.7 1.03 0.1 1.25 1.5 1.22 689 1390112_at 1.36 0.3 1.76 0.7 5.73 3.9 6.89 690 1390141_at −1.84 2.8 −2.09 4.5 1.01 0 1.14 691 1390159_at −2.23 1.9 −1.17 0.2 1.73 1.2 2.15 692 1390173_at −1.27 1 −1.07 0.2 1.16 0.6 1.02 693 1390300_at −1.07 0.1 −1.24 0.5 1.31 0.7 −1.62 694 1390306_at 1.08 0.2 1.33 1.4 1.90 5 1.71 695 1390311_at 1.07 0.4 −1.05 0.3 −1.09 0.6 −1.40 696 1390380_at −1.03 0.2 −1.10 0.9 −1.03 0.2 1.14 697 1390383_at −1.18 0.9 −1.70 5.4 −1.58 4.3 −1.78 698 1390388_at 3.81 7.2 1.05 0.1 −1.11 0.2 1.13 699 1390403_at 1.11 0.1 1.71 1.1 1.76 1.2 4.66 700 1390406_at −1.08 0.2 1.09 0.3 1.00 0 1.06 701 1390415_at 1.04 0.1 −1.91 6.4 −1.28 1.5 −1.29 702 1390420_at 1.10 0.2 2.69 4.3 4.50 8.2 7.21 703 1390536_at 1.87 8.1 1.21 1.4 1.28 2.1 1.42 704 1390555_at −1.12 0.6 −1.05 0.2 −1.07 0.3 −1.21 705 1390647_at −1.02 0.1 −1.84 6.2 −1.54 3.6 −1.69 706 1390706_at 1.36 3.5 −1.01 0.1 1.10 0.6 1.09 707 1390738_at −1.15 0.5 1.99 5.6 1.38 1.7 1.71 708 1390782_at 1.18 0.2 1.88 1.8 3.22 4.7 2.58 709 1390828_at −3.30 1.7 −1.05 0 1.26 0.2 −1.41 710 1390832_at −1.34 0.7 1.02 0 1.41 1.1 5.16 711 1390835_at −1.00 0 −2.61 2.6 −3.34 3.6 −8.43 712 1390846_at −1.02 0.1 1.58 6.1 1.54 5.5 1.70 713 1390914_at −1.05 0.1 1.02 0 1.36 1.5 1.75 714 1391167_at −1.10 0.5 −1.20 1.6 1.02 0.1 −1.16 715 1391421_at −1.19 1.6 1.04 0.2 1.08 0.6 −1.03 716 1391435_at 3.08 5.5 4.38 9 2.46 4.6 2.38 717 1391442_at −1.67 2.4 1.25 0.8 1.13 0.4 1.31 718 1391450_at 1.21 0.5 1.74 2.5 1.41 1.2 1.74 719 1391458_at 1.26 0.6 1.65 2 1.68 2.2 2.33 720 1391503_at −1.16 0.6 1.07 0.2 1.44 2.5 1.40 721 1391505_x_at −1.74 0.5 1.12 0.1 −1.48 0.4 −8.19 722 1391607_at −1.25 0.7 1.23 0.7 −1.05 0.1 1.09 723 1391827_at 1.12 0.6 −1.26 1.8 1.15 0.9 1.12 724 1391856_at 1.49 0.8 1.69 1.4 1.66 1.3 3.22 725 1391871_at −1.02 0 −1.01 0 1.20 0.7 −1.04 726 1391946_at −1.04 0.1 5.57 9.7 3.05 5.1 2.07 727 1392044_at −1.01 0 1.04 0.1 1.04 0.1 −1.05 728 1392171_at 1.96 1.8 2.73 4.1 2.89 4.5 5.78 729 1392220_at −1.14 0.3 1.20 0.6 1.28 0.9 1.74 730 1392264_s_at 1.27 0.2 8.11 6.3 8.84 6.7 6.44 731 1392280_at −1.25 1 1.28 1.4 −1.08 0.3 −1.02 732 1392471_at 1.17 1.2 1.20 1.9 1.26 2.7 1.20 733 1392489_at 1.26 2.6 1.31 4 1.20 2.1 1.14 734 1392490_at 1.10 0.7 1.39 4.7 1.25 2.5 1.19 735 1392497_at 1.02 0.1 1.20 0.9 −1.04 0.1 1.00 736 1392578_at 2.02 1.4 2.76 2.9 2.28 2.1 1.19 737 1392597_at 1.03 0.1 −1.07 0.2 1.25 1.1 1.32 738 1392648_at 1.70 1.5 1.66 1.6 2.11 3 3.90 739 1392736_at −1.50 0.4 3.11 1.8 −2.29 1.1 −11.85 740 1392784_at −1.26 1.4 1.10 0.4 1.02 0.1 −1.13 741 1392786_at 1.00 0 −1.08 0.3 1.09 0.3 −1.03 742 1392905_at −1.67 1.3 1.85 2 1.59 1.3 3.27 743 1392917_at 1.04 0.3 −1.07 0.6 −1.10 1 −1.20 744 1392934_at 1.09 0.6 1.20 2.2 1.15 1.4 1.08 745 1392948_at −1.22 0.4 3.66 7.9 1.71 2 2.58 746 1392953_at 1.11 0.5 −2.57 14.1 −2.19 11.2 −3.11 747 1392953_at 1.11 0.5 −2.57 14.1 −2.19 11.2 −3.11 748 1392990_at 1.20 0.3 2.68 4.3 5.91 10.2 6.39 749 1393003_at −1.14 0.5 1.74 4.9 1.21 1 1.24 750 1393067_at 1.92 4.6 2.93 11.3 2.79 10.6 3.37 751 1393210_at 1.03 0.1 1.25 0.8 1.18 0.5 1.64 752 1393235_at 1.41 0.5 4.89 5.4 6.63 7 10.10 753 1393240_at 1.00 0 1.45 4.8 1.32 3 1.44 754 1393249_at −1.00 0 1.85 2.9 1.26 0.7 2.57 755 1393252_at 1.19 0.3 4.17 8.7 2.71 5.1 3.17 756 1393281_at 1.28 0.9 −2.91 9.2 −1.63 2.8 −1.30 757 1393282_at −1.31 1.3 −1.03 0.1 1.42 2.2 1.22 758 1393316_at 2.59 5.7 2.41 6.3 2.02 4.5 2.83 759 1393401_at 1.42 0.5 3.81 4.5 8.18 8.8 9.47 760 1393427_s_at 1.00 0 1.21 1.5 1.64 6.4 1.89 761 1393460_at −1.06 0.2 1.08 0.3 1.30 1.7 1.24 762 1393706_at −1.28 1.1 3.09 12.3 2.73 10.5 3.03 763 1393730_at −1.00 0 1.92 5 1.42 1.9 1.68 764 1393799_at −1.08 0.2 −1.22 0.7 1.05 0.1 −1.11 765 1393883_at −1.43 0.7 −1.14 0.2 1.67 1.4 1.24 766 1393917_at 2.33 1 −1.20 0.2 −1.27 0.2 4.12 767 1393944_at 5.56 5.8 5.63 6.9 10.60 10.7 8.46 768 1393987_s_at −1.12 0.8 −1.17 1.4 −1.13 1 1.35 769 1394109_at −1.14 0.2 5.86 8.2 4.33 6.2 3.60 770 1394315_at −1.26 0.8 1.11 0.3 1.32 1.2 1.33 771 1394375_x_at −1.23 0.8 1.59 3.3 2.05 6.4 2.38 772 1394459_at −1.10 0.4 1.05 0.2 1.03 0.1 −1.33 773 1394473_at −1.12 0.3 −1.01 0 1.31 1.4 1.05 774 1394483_at 1.69 1.3 4.20 7.4 2.55 3.9 2.09 775 1394490_at −1.24 0.3 3.81 5.1 2.80 3.7 5.85 776 1394597_at −1.22 0.8 2.00 6.2 2.08 6.7 1.54 777 1394612_at −1.10 0.3 1.05 0.2 1.13 0.6 −1.16 778 1395079_at 1.19 0.5 1.38 1.6 1.39 1.6 1.47 779 1395197_at −1.17 0.4 1.25 0.7 1.45 1.4 1.31 780 1395265_at 1.02 0.1 1.45 3.9 1.28 2.1 1.62 781 1395357_at 1.31 1 −1.13 0.4 −1.57 2.5 −2.11 782 1395508_at 1.06 0.2 −1.16 0.9 −1.08 0.4 −1.01 783 1395635_at −1.34 0.9 1.72 2.7 2.03 4.2 1.46 784 1395663_at −1.17 0.2 1.76 1.7 3.24 5.3 2.93 785 1395730_at 1.32 2 −1.27 1.8 −1.14 0.8 −1.22 786 1396055_at 1.01 0 −1.18 0.7 −1.18 0.7 −1.22 787 1396208_at 1.00 0 2.03 5.5 1.82 4.3 1.46 788 1397272_at 1.12 0.4 −1.96 5.8 −1.39 1.9 −1.59 789 1397317_at −1.03 0.1 −1.01 0 −1.13 0.5 −1.06 790 1397644_at −1.02 0.1 −1.52 4.7 −1.13 0.8 −1.14 791 1397674_at 1.17 0.7 1.09 0.4 −1.01 0 1.42 792 1397808_at 1.53 1.5 1.09 0.2 1.30 0.9 1.63 793 1398131_at −2.67 2.8 −1.53 0.9 −1.12 0.2 −1.70 794 1398246_s_at −1.00 0 2.12 3.9 2.89 6.6 4.07 795 1398256_at 1.23 0.3 3.44 4.6 1.15 0.2 1.46 796 1398275_at −1.22 0.2 4.52 3 12.23 6.5 4.87 797 1398286_at −1.07 0.3 −1.21 1.5 1.03 0.1 1.27 798 1398287_at −1.12 0.3 2.01 5 3.13 10.3 3.75 799 1398303_s_at 1.49 2.9 −1.36 2.1 −1.07 0.2 −1.23 800 1398332_at −1.15 1.6 −1.09 0.8 1.05 0.4 1.21 801 1398333_at 1.60 4.1 4.84 21.9 2.88 13.9 3.09 802 1398335_at −1.24 1.6 1.30 2.3 1.55 5.1 1.59 803 1398348_at −1.14 0.4 −1.05 0.1 1.21 0.8 1.61 804 1398350_at 1.28 1.4 −1.25 1.3 −1.17 0.8 1.59 805 1398356_at 1.25 4.1 −1.14 1.8 −1.06 0.6 −1.02 806 1398380_at −1.29 1 1.14 0.4 1.37 1.4 1.44 807 1398390_at −1.20 0.3 3.78 6.6 5.71 9.8 5.62 808 1398397_at 1.24 0.9 1.53 2.7 2.53 8.9 3.60 809 1398597_at −1.12 0.6 1.28 2.3 1.29 2.5 1.67 810 1398626_s_at −1.02 0.1 −1.26 3 −1.25 2.8 −1.59 811 1398656_at 4.45 2.3 13.93 6.6 5.88 3.6 3.10 812 1398664_at 1.11 0.5 1.45 3.5 1.15 0.8 −1.25 813 1398727_at −1.07 0.1 1.17 0.6 1.31 1.2 1.71 814 1398757_at 1.03 0.2 −1.34 5.5 −1.12 1.2 −1.24 815 1398765_at 1.10 1 −1.04 0.4 −1.13 1.6 1.26 816 1398828_at 1.24 3.9 −1.12 1.5 −1.14 2 −1.15 817 1398829_at 1.02 0.1 −1.18 2.4 −1.17 2.4 −1.06 818 1398833_at 1.28 4.1 −1.12 1.3 −1.04 0.3 1.09 819 1398840_at −1.17 0.8 1.30 1.7 −1.03 0.1 1.09 820 1398851_at 1.36 6.7 −1.11 1.3 −1.04 0.4 1.11 821 1398857_at −1.13 0.7 1.05 0.2 1.00 0 −1.17 822 1398873_at 1.18 1.6 −1.10 0.8 1.10 0.8 1.37 823 1398893_at 1.18 1.7 −1.39 5.3 −1.33 4.3 −1.61 824 1398962_at 1.08 0.4 1.05 0.2 1.14 0.8 1.16 825 1398970_at 1.10 0.7 1.09 0.7 −1.04 0.3 −1.13 826 1398994_at 1.09 0.4 1.29 1.9 1.15 0.8 1.10 827 1399019_at −1.02 0.1 1.37 5.9 1.10 1 1.31 828 1399045_at 1.07 0.3 1.20 1.2 1.33 2.4 1.34 829 1399122_at 1.05 0.2 1.13 0.6 1.01 0 −1.06 Fold Fold NLogP Fold NLogP NLogP Change NLogP Change Day Change Day No. Day 4 Day 7 Day 7 Day 10 10 Day 14 14  1 3.5 1.40 6.7 1.61 10.3 1.46 8.1  2 0.7 1.20 3.3 1.25 4.1 1.13 1.8  3 2.9 −1.37 4.1 −1.36 3.8 −1.42 4.8  4 3.2 −1.04 0.2 −1.03 0.1 1.16 0.9  5 1.3 1.60 5.4 1.66 5.6 1.76 7.1  6 2 1.18 1.6 1.36 3.9 1.33 3.7  7 4.1 −1.42 2.2 −1.23 0.9 −1.12 0.4  8 2.5 1.28 3.7 1.25 2.9 1.10 0.9  9 0.2 −1.84 9.7 −1.51 5.1 −1.35 3.4  10 0.6 −1.16 1 −1.75 7.2 −1.43 3.9  11 0.6 6.41 4.2 2.38 1.2 1.74 0.7  12 5.2 −1.40 4.6 −1.17 1.3 −1.17 1.5  13 6.1 35.18 18.3 46.89 18.9 24.23 16.1  14 3.8 13.16 11.6 9.10 8.8 5.39 6.3  15 2.3 −1.37 1.4 −1.34 1.2 −1.05 0.1  16 4 1.05 0.3 1.14 1.1 −1.16 1.3  17 4.1 1.05 0.3 1.10 0.6 1.05 0.3  18 5.4 1.23 1.8 1.22 1.6 −1.18 1.3  19 2.9 −1.01 0.1 1.08 0.5 1.10 0.8  20 12 6.53 24.9 9.45 28.1 5.85 23.5  21 0 −1.34 5 −1.30 3.8 −1.39 5.9  22 8 1.01 0.1 1.01 0.1 1.03 0.2  23 0.5 −1.56 5.1 −1.48 3.8 −1.56 5.1  24 3.3 1.42 8 1.46 8.4 1.37 6.9  25 0.3 7.31 6 6.82 5.3 4.95 4.3  26 3.8 −1.04 0.1 −1.25 1.2 1.07 0.3  27 0.8 1.35 7.6 1.32 6.2 1.38 8.3  28 1.7 1.08 0.3 1.26 1.3 1.49 3.3  29 0 1.09 0.3 −1.17 0.7 −1.21 0.9  30 12.4 1.07 0.2 −1.27 1.2 −1.64 4  31 4 1.58 2 1.06 0.1 −1.15 0.4  32 3.2 2.11 8.4 2.25 8.9 1.84 6.2  33 12.4 2.34 14.4 2.50 14.9 2.24 13.4  34 2.7 1.43 3.4 1.65 5.4 1.67 6  35 0.6 −1.37 1.5 −1.47 1.9 −1.82 4.1  36 0.3 −1.29 1.5 −1.83 5.1 −1.74 4.8  37 8.7 −1.85 6 −1.87 5.7 −1.77 5.3  38 8.8 1.75 2.3 1.21 0.5 −1.06 0.1  39 0.2 −1.72 4.7 −1.20 0.9 −1.16 0.7  40 9 −1.05 0.2 −1.05 0.2 −1.30 2.5  41 5.3 1.95 11.2 1.94 10.4 1.78 9.1  42 1.4 1.14 0.4 1.40 1.5 1.85 4.2  43 4.4 −1.40 3.6 −1.04 0.2 −1.10 0.6  44 0.3 6.37 5 11.94 7.2 5.62 4.5  45 2.1 1.24 1.2 1.06 0.2 −1.32 1.6  46 0.6 2.07 4.4 2.25 4.9 2.89 7.8  47 7.7 14.29 18.2 17.75 18.8 11.24 16.3  48 2.4 1.17 0.5 1.07 0.2 −1.05 0.1  49 1.1 −2.03 4.7 −2.85 7.8 −2.37 6.3  50 3.4 3.90 9.7 3.59 8.3 2.54 5.6  51 9.7 5.40 4.3 3.66 2.7 4.24 3.4  52 9.2 −2.29 3.5 −4.18 7.5 −13.07 17.2  53 1.3 1.22 1.8 1.09 0.5 1.07 0.4  54 2.3 22.52 9.2 48.51 11.6 11.66 6.5  55 0.4 −1.48 3.3 −1.59 4 −1.58 4.2  56 7.7 −5.53 7 −3.19 3.6 1.97 1.7  57 2.5 2.46 5.9 2.50 5.6 2.46 5.9  58 7.9 3.99 15.2 3.70 13.4 2.59 9.3  59 6 8.06 14.3 7.76 13.2 3.52 7.2  60 4.8 2.03 3.8 2.09 3.7 2.40 5.2  61 4.1 7.19 12.7 9.53 14.1 5.10 9.8  62 2.1 −5.15 6 −8.78 8.5 −8.14 8.6  63 0.9 1.13 0.8 −1.11 0.6 1.06 0.3  64 1.6 1.55 5.1 1.89 8.4 1.68 6.7  65 0.6 −2.62 7.5 −1.82 3.4 −1.82 3.6  66 1 −1.45 2.8 −1.61 4 −1.30 1.7  67 1.8 1.23 0.6 1.09 0.2 1.22 0.6  68 0 1.80 3.3 2.04 4.2 2.85 8.1  69 0.4 1.33 1.1 −1.20 0.6 −1.96 4.3  70 1.1 −1.56 2.7 −2.52 7.8 −1.93 5  71 2.9 −2.03 6.4 −2.02 5.9 −1.83 5  72 3.8 2.91 4.2 1.87 1.7 −1.12 0.2  73 8.9 13.30 10.8 10.27 8.7 11.96 10.2  74 1.2 2.02 4.7 2.34 5.8 3.45 10.7  75 7.8 12.39 18.7 18.38 20.8 13.06 19.1  76 4.1 5.77 5 1.22 0.2 −1.44 0.5  77 2.4 1.53 3.7 1.47 2.9 1.69 5.1  78 3.6 −1.28 0.9 −1.68 2.6 −1.89 3.8  79 0 −2.03 4.4 −2.64 6.7 −2.34 5.9  80 7.4 1.31 3 1.36 3.4 1.41 4.4  81 4 −2.79 14.3 −2.19 9.5 −1.91 7.7  82 5.6 2.14 1.4 3.62 2.9 3.39 2.9  83 0.1 −1.88 7.1 −1.69 5.1 −1.99 8.1  84 5.1 4.90 3.6 2.49 1.4 3.81 2.7  85 1 1.79 3 2.75 6.6 2.44 5.8  86 0.5 −1.10 0.5 −1.51 3.9 1.05 0.2  87 1 −2.01 4.4 −1.83 3.3 −2.55 6.9  88 2.9 −2.64 2.4 −4.69 4.6 −6.38 6.5  89 9.2 2.13 6.9 1.82 4.5 1.47 2.5  90 4.2 1.33 1 1.06 0.1 1.10 0.3  91 2.5 2.10 8.8 2.35 9.9 1.74 5.7  92 1.6 1.69 3.1 2.41 6.3 2.60 7.7  93 3.2 −1.62 2.2 −1.07 0.2 −1.05 0.1  94 0.7 2.61 6.8 1.92 3.5 1.40 1.3  95 6.5 2.57 4.8 1.56 1.4 1.46 1.2  96 1 −1.35 3.2 −1.26 2 −1.25 2.1  97 0.3 2.35 6.9 2.46 6.9 2.15 5.9  98 2.2 3.45 2.8 4.09 3.2 1.69 0.8  99 0.8 1.84 6 1.12 0.5 −1.33 1.8 100 6.2 1.22 0.4 −1.44 1 1.00 0 101 0.1 1.60 1.7 2.03 3 2.26 4 102 0.1 −1.41 1.8 −1.69 3.2 −1.87 4.6 103 0.1 1.53 2.5 2.36 7 2.76 9.5 104 0.5 −1.65 4.2 −1.36 1.8 −1.66 4.2 105 1.1 1.57 5.6 1.92 9 1.83 8.7 106 3.3 1.02 0 −1.16 0.4 −2.28 5.2 107 0.5 4.63 15.7 6.06 17.9 5.77 18.3 108 0.7 4.46 9.1 5.91 10.8 8.30 14.4 109 0.2 2.41 9.7 2.33 8.6 2.17 8.1 110 0.6 −1.72 5.6 −2.04 7.9 −1.69 5.4 111 7.4 −1.02 0 −1.75 2.2 −2.58 5.5 112 5.2 8.96 10.8 11.59 11.7 7.04 9.2 113 0.1 1.27 4.3 1.29 4.4 1.29 4.8 114 3.9 1.26 1.2 1.76 4.3 1.83 5.1 115 2.3 1.21 2.1 1.30 3.1 1.41 5.3 116 0.1 −1.48 2.9 −1.64 3.8 −2.41 9.7 117 1.1 1.28 3.3 1.28 3 1.07 0.5 118 0.9 3.34 5.5 2.25 2.7 3.03 4.8 119 9.8 1.68 4.5 1.29 1.4 1.79 5.3 120 5 1.24 3.4 1.34 5.1 1.01 0 121 4.3 1.21 1.3 1.12 0.6 1.16 0.9 122 0.4 −1.48 5.4 −1.40 4 −1.40 4.4 123 5.7 1.08 0.4 −1.27 1.5 −1.57 4.3 124 6 −1.27 1.6 −1.09 0.3 1.01 0 125 0.7 1.26 2.1 1.15 1 1.22 1.7 126 0.8 5.14 23 11.15 31.3 12.54 33.7 127 1.8 1.25 0.8 −1.21 0.6 −1.30 1.1 128 2.5 1.29 0.4 1.60 0.9 3.62 4.4 129 1.8 1.74 7.4 1.73 6.8 1.71 7 130 3.5 2.05 8.2 1.63 4.3 1.31 1.9 131 1 −1.44 4 −1.34 2.7 −1.27 2.1 132 1.2 7.48 19.6 7.36 18.4 5.66 16.5 133 0.8 −1.13 0.8 −1.26 2 −1.26 2.1 134 1 1.22 3.3 1.47 8.1 1.35 6.2 135 2.7 1.65 2.2 1.13 0.3 1.99 3.6 136 4 1.16 0.9 1.12 0.6 1.51 4.6 137 8.1 10.91 17.5 8.49 15.4 3.47 8 138 9.2 1.04 0.2 −1.48 2.8 −1.47 2.9 139 2.8 1.40 4.2 1.45 4.5 1.33 3.2 140 6.7 −1.21 1.6 −1.23 1.7 −1.14 0.9 141 2.5 1.25 1.9 1.02 0.1 1.10 0.5 142 9.1 1.67 2.3 1.31 0.8 −1.33 0.9 143 0.1 −2.39 10 −1.87 5.7 −2.37 9.8 144 0.6 1.26 1.5 1.11 0.4 1.18 0.9 145 0.6 2.73 4 1.46 0.8 2.53 3.6 146 0.8 1.69 3.8 2.01 5.5 1.58 3.1 147 5.7 2.91 4.4 3.51 5.3 2.55 3.6 148 0.6 3.17 4.1 2.62 2.9 −1.11 0.2 149 3.4 1.57 0.7 −2.23 1.4 −4.09 3.7 150 2.8 1.98 1.4 −2.61 2.1 −3.55 3.5 151 1.7 −1.62 6.6 −1.21 1.5 −1.11 0.7 152 2.1 −1.10 0.4 −1.75 4.9 −1.84 6 153 2 −1.66 5.3 −1.69 5.2 −1.63 5 154 2 −1.20 1.5 1.19 1.4 1.32 3 155 0.9 2.16 3.9 2.46 4.7 1.92 3.1 156 4 −1.10 1 1.05 0.4 1.02 0.1 157 6.7 −1.37 2.6 −1.32 2 −1.43 3.1 158 2.3 −1.68 3.3 −2.17 5.7 −2.28 6.7 159 2.6 −1.72 8.3 −1.63 6.7 −1.48 5.1 160 9.9 1.92 4.4 1.98 4.4 1.21 0.7 161 7.8 −1.13 0.3 −1.36 0.9 −1.40 1.1 162 9.1 2.16 13.2 2.25 13.2 2.30 14.5 163 2.6 2.29 5.3 1.48 1.5 2.89 7.7 164 4.7 1.34 1.3 −1.12 0.4 −1.26 1 165 4.8 1.57 5 1.33 2.3 1.49 4.1 166 1.3 1.03 0.1 −1.05 0.2 1.09 0.3 167 0.8 −1.72 5 −1.24 1.1 −1.10 0.4 168 3.5 1.76 3.7 1.61 2.6 1.23 0.8 169 3.3 −1.11 0.6 −1.02 0.1 1.26 2 170 7.1 4.24 3.4 1.81 0.8 1.06 0.1 171 11.4 28.07 19.7 32.03 19.5 23.11 18.4 172 0.4 −2.23 7 −2.31 6.9 −1.59 3 173 0.1 1.33 2.6 1.29 2 1.14 0.8 174 7.8 3.53 7.9 2.45 4.4 1.47 1.3 175 5.7 −1.02 0.1 1.05 0.3 −1.09 0.7 176 0.1 1.27 2.9 1.38 4.2 1.24 2.4 177 0 1.78 6.6 1.69 5.3 1.35 2.4 178 0.6 1.52 3.6 2.21 8.7 1.74 5.5 179 8.2 −1.39 2.5 1.09 0.4 −1.41 2.7 180 10 2.00 6.2 2.39 8 2.07 6.6 181 1.7 1.37 2 2.26 8 2.06 7.2 182 5.2 1.76 6.3 2.01 8 1.98 8.3 183 4 −1.15 0.7 −1.28 1.4 −1.51 3.5 184 7.8 2.26 2.6 1.19 0.3 −1.02 0 185 0.5 1.46 3.9 1.86 7.7 1.62 5.7 186 0.3 1.27 3.4 1.28 3.2 1.10 0.8 187 0.1 −1.38 4 −1.34 3.2 −1.27 2.5 188 1.3 −1.31 2.5 −1.44 3.7 −1.38 3.3 189 3.2 −1.29 2.1 −1.36 2.5 −1.59 5.2 190 17.7 12.09 21.8 15.12 22.6 9.12 19.2 191 10 1.62 6.7 1.47 4.5 1.39 3.8 192 2 −1.07 0.4 1.12 0.8 1.43 5.2 193 1.1 1.26 4.1 1.31 5 1.27 4.3 194 0.7 1.61 6.7 1.78 8.3 2.20 13.6 195 1 1.58 7.7 2.26 15.6 2.26 16.5 196 1.4 3.43 3.8 4.13 4.4 3.15 3.4 197 4.3 −1.15 0.9 1.04 0.2 −1.03 0.1 198 2.3 1.30 2.3 1.65 6 1.55 5.3 199 1.4 1.18 2.6 1.33 5.8 1.32 6 200 0.2 −1.61 4.4 −1.22 1.1 −1.64 4.7 201 4.2 1.25 2.4 1.02 0.1 1.13 1 202 5.4 −1.40 6.6 −1.29 4 −1.18 2.3 203 0.2 1.10 0.8 1.25 2.5 1.03 0.2 204 3 2.12 4.8 1.68 2.5 1.44 1.6 205 8.9 5.20 17.7 4.40 14.7 3.35 12.1 206 3.5 1.10 0.5 1.03 0.1 −1.06 0.2 207 6.8 −1.14 1.3 1.00 0 −1.03 0.2 208 4.6 1.19 0.4 1.12 0.2 1.11 0.2 209 13.6 1.16 1.9 −1.05 0.4 −1.12 1.2 210 1.4 1.70 2.2 2.03 3.2 2.87 6.4 211 5.2 1.20 1.3 1.09 0.4 −1.08 0.4 212 5 −1.14 0.6 −1.31 1.5 −1.34 1.8 213 0.3 1.04 0.2 −1.53 4.4 −1.23 1.6 214 0.2 1.25 1.5 1.27 1.5 1.22 1.2 215 3.9 2.83 12.9 2.21 8.4 2.58 11.4 216 4.5 1.44 5.1 1.46 5.1 1.26 2.6 217 1.4 −1.26 2 −1.12 0.7 −1.07 0.3 218 1.1 1.38 4.2 1.57 6.5 1.28 2.7 219 0.6 −1.33 4.4 −1.38 5 −1.28 3.6 220 0.9 3.17 9.5 3.67 10.5 2.95 8.7 221 0.9 3.17 9.5 3.67 10.5 2.95 8.7 222 0.4 −1.40 3.1 −1.74 6.3 −1.21 1.3 223 6.4 1.33 1.1 −1.24 0.7 −1.21 0.6 224 0.1 2.26 10.5 2.04 8.2 2.19 10 225 0.1 1.43 2.2 1.90 5 1.96 5.9 226 0 1.19 2.2 1.33 4.4 1.31 4.3 227 8.3 2.38 26.3 2.39 25.3 2.17 23.7 228 5.2 −1.16 1.6 −1.03 0.1 1.03 0.2 229 0.3 2.74 8.2 2.89 8.3 2.17 5.6 230 0.4 −1.80 4.2 −1.96 4.8 −1.36 1.5 231 0.6 −1.62 9.8 −1.66 9.8 −1.55 8.6 232 0.5 −1.13 1.6 −1.11 1.2 −1.40 7.6 233 12.2 1.05 0.1 −1.03 0.1 −1.12 0.4 234 0.6 1.95 5.4 2.61 8.6 1.99 5.7 235 0.2 −1.06 0.2 −1.33 1.1 −1.09 0.2 236 0.9 1.42 5.8 1.59 8.2 1.83 12.5 237 0.7 −1.26 2.7 −1.20 1.8 −1.30 3.3 238 7.3 3.40 12.5 4.88 16.3 4.80 17 239 0.7 1.93 7.4 1.90 6.6 1.84 6.6 240 6.4 3.50 19.5 4.50 22.4 3.90 21.3 241 5.6 1.68 8.1 1.96 10.8 1.38 3.9 242 13 1.62 2.1 1.42 1.2 2.04 3.9 243 4.1 4.04 10.4 3.25 7.6 2.39 5.2 244 0.4 1.53 6.5 1.83 10.1 1.71 9.2 245 6.8 1.43 1.8 1.23 0.7 1.91 4.4 246 4.8 2.70 5.8 3.07 6.5 1.93 3 247 0.1 2.75 6.7 3.26 7.8 2.84 7 248 1.2 −1.09 0.4 −1.21 1.1 −1.36 2.5 249 1.6 1.12 0.6 1.52 3.9 1.63 5.3 250 0.1 −1.69 2.9 −1.70 2.8 −1.94 4.2 251 2.6 −1.42 1.6 −1.59 2.3 −1.32 1.1 252 6.8 1.65 8.3 1.86 10.6 1.81 10.5 253 2 2.82 6.9 2.79 6.3 2.48 5.7 254 0 2.15 4.8 3.05 7.9 2.36 5.7 255 3.9 6.52 8.6 9.30 10.2 5.21 7.1 256 2.9 1.82 11.5 1.92 12 1.75 10.5 257 6.9 −1.06 0.3 −1.52 3.6 −1.12 0.6 258 1.4 −1.04 0.2 −1.30 2.1 −1.53 4.9 259 8.4 1.54 4.6 1.39 2.8 1.31 2.2 260 1.7 1.15 0.9 1.33 2.4 1.38 3.1 261 0.4 −1.04 0.2 1.05 0.3 −1.15 1.3 262 4 2.64 5.9 2.71 5.7 2.91 6.8 263 4.7 1.19 1.2 1.47 3.7 1.61 5.5 264 0 1.28 2.9 1.67 8.2 1.32 3.4 265 2.6 −1.87 9.8 −1.64 6.5 −1.39 3.7 266 0.7 −1.55 2.3 −1.69 2.8 −1.09 0.2 267 10.8 2.35 8 1.79 4.2 1.70 3.9 268 8.2 −1.09 0.5 −1.59 5 −1.38 3.1 269 0.1 1.20 0.6 1.49 1.8 2.02 4.7 270 9.5 −1.02 0.1 −1.33 2 −1.43 3 271 1.5 −1.77 8.1 −1.77 7.7 −1.52 5.1 272 2.9 −1.52 3.9 −1.70 5.2 −1.40 2.8 273 1.7 4.31 15.5 4.02 13.8 3.58 13.1 274 0.4 1.12 0.8 −1.09 0.5 −1.01 0 275 1.1 −1.50 6.3 −1.37 3.9 −1.39 4.6 276 16.5 3.72 28.3 4.51 30.5 3.45 26.9 277 4.4 1.07 0.3 1.25 1.8 1.17 1.1 278 2.8 −1.84 8.8 −1.26 1.9 −1.10 0.5 279 8 2.88 16 2.81 14.7 2.34 12.2 280 6.5 −1.10 0.3 −1.23 1 −1.29 1.4 281 1.3 −1.45 4.5 −1.34 2.9 −1.37 3.5 282 8.4 −1.10 0.5 1.09 0.4 1.18 1 283 5.6 1.22 2.1 1.05 0.3 1.16 1.3 284 1.4 −1.43 6 −1.48 6.3 −1.32 4 285 12.3 2.72 3.5 1.80 1.4 2.68 3.4 286 4.5 6.11 8.5 6.78 8.6 10.91 12.4 287 6 1.22 1.6 −1.03 0.1 1.19 1.3 288 1.2 −1.57 4.6 −1.91 7.3 −1.57 4.6 289 1.5 2.47 6 2.84 7 2.53 6.3 290 4.8 1.89 2.7 1.63 1.7 −1.29 0.7 291 2.2 −1.17 1.7 −1.32 3.7 1.04 0.2 292 0.4 −1.47 5.6 −1.30 2.9 −1.21 1.8 293 11.6 2.74 17.4 1.98 10 1.87 9.5 294 0.4 −1.66 5.2 −1.43 2.9 1.03 0.1 295 1.7 −1.06 0.2 −1.29 1.8 −1.10 0.5 296 0.7 1.05 0.2 1.25 1.6 1.07 0.4 297 0.4 1.41 2.4 1.50 2.9 −1.23 1.1 298 0.2 1.39 1.9 1.45 2.1 1.79 4.7 299 1.6 −1.35 1.5 −1.22 0.8 −1.31 1.2 300 1.8 −1.64 2.9 −1.50 2 1.05 0.1 301 1.5 8.54 13.2 9.72 13.4 6.28 10.8 302 5.1 5.16 12.6 7.26 15.1 3.79 9.6 303 6.8 1.62 5.3 1.28 1.7 1.49 3.9 304 6.2 1.37 4.5 1.07 0.4 −1.01 0.1 305 2.1 −1.69 3.2 −2.10 5.1 −2.24 6.2 306 1.2 −1.31 0.3 1.47 0.4 −2.35 1.2 307 2.4 2.30 7.4 1.94 4.9 2.20 6.9 308 2.1 −1.60 2 −1.65 2 −2.68 6.2 309 3.5 3.49 11.7 3.00 9.2 1.81 3.9 310 0.1 −1.53 4.6 −1.58 4.9 −1.31 2.3 311 15.4 2.33 12.3 1.96 8.4 1.49 4.1 312 0.9 −1.10 0.3 −1.17 0.5 1.31 1.2 313 3.7 1.29 1 1.79 3.1 2.72 7.7 314 6.8 12.99 8.2 2.64 1.7 1.49 0.5 315 1.7 −1.34 2.9 −1.33 2.5 −1.47 4.4 316 2 1.39 2.7 1.36 2.3 1.66 5.3 317 0.5 1.39 3.1 1.42 3.2 1.50 4.2 318 4.6 −1.25 1.2 −1.91 6 −1.95 6.8 319 6.7 12.31 23.1 14.98 23.7 9.38 20.6 320 0.3 1.16 1.3 1.11 0.8 1.16 1.3 321 0.2 1.02 0.1 −1.13 0.5 1.03 0.1 322 0.5 1.39 2.4 1.19 0.9 1.57 4.1 323 2.1 −1.37 0.8 −1.45 1 −1.46 1.1 324 4.1 1.68 1.3 −1.37 0.6 −1.42 0.7 325 0.4 2.11 4.5 1.58 1.9 1.61 2.2 326 14.3 4.60 14 4.32 12.5 3.43 10.6 327 2.7 5.72 5.4 9.46 7.3 3.04 2.7 328 3.3 4.26 5.5 5.35 6.4 5.11 6.6 329 0.3 −1.87 2 −3.76 5.9 −1.85 1.9 330 0.2 2.34 5.8 2.70 6.8 1.75 3 331 0.9 −1.40 1.6 −2.21 5.5 −2.82 8.7 332 1.4 −1.21 1.3 −1.25 1.5 −1.15 0.8 333 0.4 1.33 1 2.12 4.1 1.34 1 334 7 3.73 11.3 2.00 4.1 1.82 3.5 335 0.7 1.65 4.3 1.71 4.5 1.74 5 336 10.6 1.10 0.5 1.08 0.4 1.10 0.6 337 2.3 −1.71 7.6 −1.73 7.2 −1.89 9.7 338 1.2 1.07 0.3 −1.24 1.3 −1.53 4.1 339 7.2 1.16 0.3 −1.55 1.3 1.01 0 340 5.7 −1.03 0.1 −1.54 2.7 −1.39 1.9 341 0.7 1.87 4.1 1.62 2.5 1.57 2.4 342 4 1.51 2.8 1.04 0.1 1.55 3.1 343 4.4 9.86 9.6 12.76 10.5 9.31 9.3 344 1.1 4.63 3.2 10.85 5.8 2.94 1.8 345 4.8 1.80 2.9 2.95 7 2.46 5.7 346 1.3 7.05 9.3 5.55 7.2 5.26 7.4 347 0.7 1.92 9.3 2.68 15 1.83 8.4 348 1.5 2.45 2.6 2.32 2.2 8.63 9.9 349 0.7 2.37 4.7 2.17 3.7 2.08 3.6 350 3.5 1.56 2.2 1.54 1.9 1.44 1.6 351 0.9 −1.80 4.5 −1.68 3.5 −1.22 0.9 352 0.6 1.27 2.3 1.18 1.2 1.28 2.4 353 0.1 1.15 0.3 −1.32 0.7 −1.07 0.1 354 1.3 1.34 1.6 1.31 1.3 1.30 1.4 355 0.1 −1.04 0.1 1.32 1.7 1.61 4.2 356 5.2 2.13 8.7 1.82 5.7 1.75 5.6 357 1.4 −2.17 7.2 −1.28 1.1 −1.10 0.3 358 0.9 −1.61 6.3 −1.67 6.5 −1.41 3.9 359 0.2 −1.18 0.8 −1.55 3.5 −1.63 4.5 360 7.2 2.67 12.1 2.79 12 2.85 13.1 361 3.8 3.88 18 3.98 17.4 3.66 17.1 362 4.2 −1.03 0.1 −1.07 0.3 1.01 0 363 0.1 1.12 0.9 1.44 4.5 1.25 2.3 364 6.8 −1.11 0.7 −1.03 0.1 1.16 1.1 365 1.9 2.16 5.7 1.49 1.9 1.87 4.1 366 3.8 5.91 18.5 6.12 18 5.96 18.7 367 4.9 −1.24 2.2 −1.06 0.3 −1.09 0.6 368 0.3 −1.48 4.1 −1.52 4.2 −1.25 1.7 369 3 4.08 13.1 2.94 8.6 2.79 8.6 370 3.1 1.62 3.7 1.63 3.5 1.82 5.2 371 0.9 2.22 4.9 2.92 7.1 4.14 11.4 372 1.5 1.01 0 −1.29 1.7 −1.06 0.3 373 1.9 1.34 4.3 1.31 3.4 1.43 5.7 374 1.2 1.46 4.6 1.86 9.1 2.17 13.1 375 2 −1.17 1.6 −1.23 2.3 −1.36 4.5 376 4.6 3.06 8.9 2.84 7.5 2.81 7.9 377 1.1 1.03 0.1 −1.54 4 −1.25 1.5 378 6.8 −1.22 2.6 −1.24 2.7 −1.39 5.5 379 1.2 1.16 0.7 1.01 0 1.18 0.9 380 5.8 1.62 3.6 1.27 1.2 1.80 4.9 381 2.2 2.48 5.8 2.43 5.2 1.70 2.5 382 5 −1.51 3.8 −1.61 4.4 −1.76 6.1 383 5.3 1.14 0.7 −1.05 0.2 −1.13 0.6 384 6.2 1.33 1.9 −1.05 0.2 −1.17 0.8 385 0.7 1.26 5 1.28 5.3 1.24 4.5 386 9.8 9.22 19 13.10 21.1 7.77 17.3 387 0.1 1.60 4.4 1.91 6.7 1.47 3.3 388 2 4.40 12.3 3.12 8 3.28 9.1 389 2.4 1.15 1 1.28 2.2 1.45 4.5 390 3.4 1.24 1.2 1.61 4 1.57 3.9 391 0.9 −1.11 0.6 −1.51 4.5 −1.15 0.9 392 0 1.80 2.7 2.35 4.4 1.85 2.8 393 0.3 1.20 1.6 1.30 2.8 1.46 5.1 394 2.1 2.41 7.7 1.98 4.9 1.91 4.9 395 4.1 −1.56 4.6 −1.48 3.5 −1.20 1.2 396 6.4 1.62 2.4 1.39 1.3 −1.14 0.4 397 0.3 2.65 8.6 3.02 9.5 3.25 11.1 398 0.2 1.84 3.2 2.15 4.5 1.96 4 399 0.8 −1.60 6.1 −1.22 1.6 −1.22 1.6 400 2.5 4.18 5.2 9.20 9.3 3.32 4 401 0.3 −1.19 1.4 −1.72 7.1 −1.35 3 402 0.6 1.03 0.1 1.24 1 −1.14 0.6 403 0.2 −1.03 0.1 −1.47 2.5 −1.98 6.4 404 0.8 1.57 5 1.11 0.5 1.14 0.8 405 3.7 3.07 5.3 2.93 4.6 2.08 2.7 406 16.8 5.67 18.1 5.47 16.8 2.36 7.3 407 4.6 1.99 6.3 2.23 7.3 1.84 5.3 408 1.4 2.66 8.9 1.96 4.8 1.85 4.5 409 1.3 −1.20 1.5 −1.47 4.4 −1.39 3.7 410 2.8 3.51 6.6 7.10 11.6 5.68 10.5 411 1.7 1.22 1.1 1.28 1.3 1.70 4.8 412 4.2 1.08 0.1 −1.28 0.6 −1.52 1.3 413 0.3 1.37 0.7 −1.09 0.1 2.09 2.3 414 0.1 2.18 3.9 2.31 4 3.11 6.9 415 3.2 1.51 5.2 1.57 5.6 1.52 5.3 416 3 2.38 4.2 1.89 2.4 1.31 0.7 417 2.1 −1.26 0.9 −2.15 5.2 −2.36 6.6 418 1.4 1.66 3.7 2.15 6.4 1.78 4.5 419 0.1 1.67 4.7 1.95 6.5 1.91 6.6 420 1.1 1.08 0.3 1.07 0.2 −1.02 0.1 421 0.1 1.95 5 1.34 1.3 1.46 2.1 422 0 −1.10 0.3 −1.12 0.3 1.00 0 423 0.2 1.54 4.7 1.85 7.4 1.50 4.3 424 4.1 −1.04 0.3 −1.10 0.8 1.00 0 425 2.2 −2.81 2.3 −6.12 5.1 −3.36 2.9 426 0.1 −1.04 0.2 −1.59 7.2 −1.36 4.1 427 1.6 1.21 1 1.48 2.8 2.25 9.2 428 0 −1.36 2.4 −1.63 4.7 −1.33 2.2 429 3 −6.36 3.1 −23.02 6.5 −6.32 3.1 430 3.9 2.62 9.6 2.46 8.1 1.76 4.4 431 3.3 3.92 5.3 6.65 8.1 3.64 4.9 432 1.3 2.45 8 3.49 11.8 4.12 14.7 433 2.2 3.61 6.7 3.93 6.9 2.96 5.2 434 1.2 1.72 4.6 2.40 8.7 2.71 11.2 435 2.9 −2.02 5.1 −1.69 3 −2.01 5 436 1.5 −1.76 2.7 −2.64 5.8 −2.61 6.2 437 1.2 −3.59 6.8 −3.79 6.8 −5.74 10.7 438 5.3 1.16 0.5 −1.26 0.9 −1.40 1.7 439 5.1 −1.22 0.4 −1.22 0.3 −1.46 0.8 440 1 2.62 4.6 1.81 2 2.10 3.1 441 6.3 18.09 13.7 15.00 11.8 8.66 9.3 442 2.6 5.04 7.2 5.93 7.7 3.26 4.4 443 0.6 2.18 5.1 1.47 1.6 1.00 0 444 0.3 −2.52 3.5 −4.09 6.3 −2.94 4.5 445 0 −1.32 1.1 −2.28 5.1 −1.92 3.9 446 6.1 1.63 8.5 1.42 4.8 1.37 4.4 447 5.1 2.15 2 1.72 1.1 −1.69 1.1 448 5.6 −2.87 2 −3.15 2.1 −1.97 1 449 3.2 6.94 9.8 7.74 9.9 8.93 11.6 450 4.1 1.31 1.7 1.24 1.1 1.24 1.2 451 14.8 5.60 16.9 4.63 13.9 4.65 14.7 452 2.4 3.71 13.6 3.38 11.6 3.03 10.9 453 4.1 −1.12 0.4 −1.58 2.5 −1.25 0.9 454 7 17.15 20.3 19.71 20.3 9.81 15.9 455 0.5 −1.61 1.2 −2.78 3.8 −3.02 4.6 456 5.8 −1.26 3.6 −1.10 0.9 −1.16 1.7 457 1.2 5.60 4.4 5.22 3.8 3.54 2.7 458 2.2 −1.35 2.3 −1.51 3.5 −1.60 4.6 459 0.6 3.46 5.1 1.93 1.8 1.93 1.9 460 1.9 3.85 9.6 4.14 9.6 4.92 12 461 0 −1.35 2.3 −1.43 2.8 −1.67 5.2 462 0.4 1.53 2.5 1.59 2.6 1.78 4 463 1.8 −1.59 1.6 −2.26 3.6 −2.28 3.9 464 0.5 2.93 10 2.41 7 1.58 2.6 465 4 5.72 11.8 3.73 7.5 2.85 5.7 466 3.2 1.24 0.4 2.06 1.9 1.15 0.2 467 3.9 1.86 7.4 1.69 5.4 2.04 9 468 7.8 1.13 0.5 1.17 0.7 1.23 1.1 469 1.9 5.17 7.7 5.80 8 4.56 6.9 470 2 1.63 3.9 1.73 4.4 1.44 2.5 471 3.7 −2.69 8 −1.66 2.5 −1.52 2.1 472 4.4 −1.17 0.4 −1.91 3.2 −1.25 0.7 473 0.3 −1.06 0.2 −1.84 4.1 −1.94 5 474 0.1 −1.69 6.3 −1.64 5.3 −1.34 2.5 475 3.1 9.94 8.5 7.09 6.3 8.76 7.9 476 0.9 1.00 0 −1.07 0.7 −1.11 1.3 477 1.4 −1.22 3.7 −1.43 8.4 −1.30 5.8 478 0.2 −1.18 0.6 −1.36 1.4 −1.96 5 479 0.5 −1.05 0.3 −1.43 4.6 −1.05 0.3 480 4.8 −1.61 7.5 −1.73 8.6 −1.37 4 481 0.7 −1.23 2.2 −1.40 4.1 −1.08 0.5 482 0.9 3.22 5.4 3.80 6.2 3.02 5 483 4.5 5.84 7.2 3.14 3.4 3.11 3.7 484 0.4 1.84 5.1 1.56 2.9 1.45 2.3 485 4.2 −1.02 0.1 −1.47 2.4 −1.45 2.5 486 7.2 1.48 3.5 1.48 3.3 1.26 1.6 487 2.4 1.41 2.7 1.56 3.8 1.93 7.4 488 1.5 4.82 6 4.58 5.3 7.04 8.3 489 0.5 −1.06 0.4 −1.31 4 −1.22 2.7 490 9.2 1.26 1.3 −1.11 0.4 −1.58 3.8 491 3.2 1.18 1.2 −1.02 0.1 1.21 1.4 492 0.5 −1.62 4.1 −1.56 3.3 −1.34 1.9 493 1.6 −1.31 2.7 −1.40 3.5 −1.61 6.5 494 2.8 1.09 0.5 1.04 0.2 −1.12 0.8 495 0.4 1.40 2.3 1.75 4.7 1.45 2.6 496 0.6 −1.21 0.1 −18.25 4.7 −29.79 6.4 497 5.9 −1.01 0 −1.18 1.1 −1.09 0.5 498 4 −1.36 3.2 −1.42 3.6 −1.60 6.1 499 0.1 1.85 4.2 1.41 1.6 1.98 4.9 500 1.5 3.01 4 3.47 4.5 2.91 3.8 501 2.5 7.91 10.3 5.85 7.7 5.13 7.4 502 8.8 4.16 20.7 3.30 16.1 2.45 12 503 3.4 −1.79 7.1 −1.61 4.8 −1.69 6 504 1.7 5.41 7.5 10.36 11.2 8.33 10.4 505 6.9 1.13 0.7 1.13 0.6 1.15 0.9 506 3.1 1.58 2.6 −1.01 0 1.43 1.8 507 0.6 6.58 4.5 7.76 4.7 1.97 0.9 508 3.8 −1.66 3.1 −1.56 2.3 −1.64 2.7 509 0.7 −1.39 2.4 −1.54 3.4 −1.74 5.4 510 5.7 7.04 12.3 9.76 14.1 10.87 15.8 511 4.9 1.29 1.1 1.32 1.2 1.09 0.3 512 0.1 1.43 1.6 1.49 1.8 2.09 5 513 1.6 1.39 1 1.34 0.8 1.35 0.9 514 5.7 −1.16 1.2 −1.10 0.7 −1.23 2 515 4.9 2.01 3.3 1.46 1.2 1.04 0.1 516 0.1 1.03 0 1.24 0.4 1.06 0.1 517 10.6 5.07 21.2 5.80 21.9 7.64 26.4 518 2.1 −1.49 2.5 −2.13 6.2 −2.10 6.4 519 0.4 −1.33 1.6 −2.11 6.6 −1.30 1.4 520 0 1.71 5.9 1.60 4.5 1.14 0.7 521 0.6 2.30 3.2 2.10 2.5 2.78 4.4 522 0.8 2.29 2.5 4.34 5.7 4.97 6.9 523 4 6.20 9.6 6.09 8.9 4.17 6.8 524 6.7 −1.08 0.1 −3.13 4.5 −3.39 5.3 525 3.2 24.42 6.6 8.82 3.4 2.25 0.8 526 3.2 −2.02 4.3 −2.14 4.5 −2.53 6.5 527 1.1 1.89 5 1.49 2.2 1.43 2.1 528 4.6 1.61 6.9 1.40 3.7 1.29 2.7 529 2.3 1.94 1.4 2.10 1.6 2.50 2.3 530 0.9 2.41 8.3 3.11 11.1 2.87 10.7 531 5.7 2.24 8.1 2.03 6.2 2.41 9.2 532 6.3 1.57 3.3 1.46 2.4 1.41 2.2 533 7.4 7.15 21.6 6.13 18.9 5.76 19.1 534 0.4 1.32 5.1 1.28 4 1.42 7.2 535 0.8 1.17 2.3 1.14 1.7 1.25 4.1 536 6.2 23.99 17.4 30.83 18 18.90 15.9 537 6.4 1.08 0.5 −1.14 1 −1.35 3.9 538 5.7 −1.01 0 −1.22 0.8 −1.12 0.4 539 3.4 −1.13 0.4 −1.13 0.4 −1.01 0 540 1.4 10.50 10.6 7.29 7.8 6.65 7.8 541 0.1 −1.42 2.2 −1.84 4.8 −1.58 3.3 542 1.3 1.37 1.6 1.74 3.5 1.80 4.1 543 1.4 −1.75 9.4 −1.49 5.3 −1.48 5.6 544 1.2 1.63 3.9 2.08 6.7 2.26 8.4 545 1.6 1.96 12.3 2.26 14.8 1.86 11.1 546 2.4 1.22 0.6 −1.04 0.1 −1.48 1.5 547 0.4 1.75 3.4 1.58 2.3 1.91 4.3 548 8.1 1.28 2.3 1.03 0.1 1.15 1 549 7.3 13.29 8 10.19 6.4 4.63 3.6 550 1 −2.52 5.9 −5.84 13.6 −9.73 18.4 551 4.2 1.76 5.5 1.08 0.3 1.42 2.6 552 1.7 2.36 3.1 2.51 3.2 3.46 5.5 553 3.3 8.78 8.8 5.79 6 5.69 6.3 554 0.1 −1.38 1.2 −2.07 4 −1.87 3.4 555 0.3 −1.86 5.1 −1.49 2.4 −1.57 3.1 556 5.3 7.45 5.4 3.48 2.4 1.16 0.2 557 6.2 2.29 10.6 1.67 4.9 1.43 3 558 5.2 7.34 7.7 7.50 7.3 4.03 4.5 559 1.6 2.89 5.5 2.24 3.4 3.32 6.6 560 15.1 7.25 26.3 10.14 29 7.30 26.4 561 0.4 1.32 1.6 1.44 2.3 1.94 6.2 562 14.6 4.42 17.2 4.51 16.6 2.56 9.6 563 2.5 1.17 0.5 1.14 0.4 1.57 2.1 564 8.8 −1.02 0.1 −1.08 0.2 1.09 0.3 565 2.6 −1.31 1.9 −1.66 4.8 −1.58 4.4 566 0.1 −1.12 0.2 −1.60 1 −2.56 2.9 567 1.1 2.78 2 5.47 4.1 4.36 3.5 568 8.7 1.75 6.5 1.52 3.9 1.37 2.7 569 0.3 1.87 4.8 1.67 3.3 1.47 2.3 570 0.3 1.26 1.5 1.05 0.2 1.22 1.2 571 5.5 8.83 12.4 11.20 13.3 6.15 9.7 572 0.5 1.89 5.1 1.39 1.7 1.50 2.5 573 0.3 1.53 3.1 1.39 1.9 1.19 0.8 574 8.6 1.52 0.6 −2.48 1.9 −3.64 3.5 575 11.4 7.13 15.2 8.19 15.6 4.55 10.9 576 2.6 2.40 8.2 2.16 6.3 1.96 5.5 577 0.5 1.52 2.6 1.57 2.7 1.86 4.5 578 3.7 1.92 6.5 1.80 5.2 1.41 2.4 579 3.2 1.14 0.8 1.34 2.4 1.49 4.1 580 1.8 1.87 3.3 1.37 1.1 2.09 4.2 581 4.9 1.29 0.5 −1.50 0.8 −2.71 3.3 582 4.3 1.40 4.2 1.27 2.3 1.17 1.4 583 10.5 1.52 2.4 1.27 1 1.20 0.7 584 0 1.82 13.4 1.75 11.6 1.88 14.3 585 4.6 1.09 0.6 1.24 2.4 1.25 2.6 586 0.3 1.33 3.2 1.50 5.1 1.23 2 587 5.1 −1.28 1.6 −1.36 2 −1.26 1.5 588 0.5 −1.47 4.2 −2.00 9.4 −2.10 11 589 8.3 −1.39 2.1 −1.54 3 −1.66 4 590 4.7 1.25 1.5 1.30 1.7 1.30 1.8 591 0.8 1.59 2.5 2.37 6 1.77 3.4 592 4.4 1.72 1 −2.64 2.3 −3.68 4 593 0.1 −2.21 6.9 −2.09 5.7 −1.54 2.7 594 0.8 1.49 4.2 1.14 0.8 1.14 0.8 595 0 1.10 1.5 −1.01 0.1 −1.00 0 596 0 1.14 1.6 −1.03 0.2 −1.05 0.4 597 1.8 2.79 5.1 2.92 5.1 1.99 2.8 598 1.1 −1.89 5.5 −1.97 5.7 −1.50 2.7 599 5.8 −1.03 0.1 1.77 6 1.86 7.2 600 5.3 1.80 6.6 1.73 5.5 1.31 2 601 5.7 −3.69 8.5 −1.69 2 −2.31 4.3 602 4.1 1.28 1.2 1.15 0.5 −1.05 0.2 603 5.8 5.35 6.3 1.61 0.9 1.18 0.2 604 1 −2.04 2.6 −2.66 4 −2.63 4.2 605 0 2.63 6.8 2.17 4.5 1.56 2 606 1.3 −1.20 1 −1.65 4.4 −1.44 2.8 607 0.2 −1.26 0.6 −1.04 0.1 1.12 0.2 608 2.4 −2.12 7.5 −1.95 5.9 −1.77 5 609 0.9 1.54 2 1.88 3.4 1.98 4.2 610 0.6 1.13 1.2 1.28 3.3 1.36 5.1 611 1 1.33 3.2 1.11 0.7 1.14 1 612 6.4 3.06 14.9 3.67 16.9 2.37 10.7 613 1.2 1.52 10.6 1.51 9.5 1.27 4.6 614 0.7 1.19 1.2 1.11 0.6 1.06 0.3 615 1.2 2.37 8.1 2.19 6.6 1.53 2.7 616 5.3 1.08 0.6 1.14 1.3 1.14 1.5 617 8.1 −1.16 1.1 1.70 6.7 1.89 9.4 618 1.7 −1.30 4.1 −1.27 3.3 −1.18 2 619 4.1 −1.14 1 −1.13 0.8 −1.43 4.4 620 0.6 −1.36 4.6 −1.44 5.6 −1.82 12.2 621 11.6 2.91 14.1 3.72 17.1 3.27 16 622 1.6 −1.30 2.6 −1.37 3.2 −1.49 4.9 623 0.3 1.11 0.8 1.18 1.5 1.19 1.7 624 5.9 −1.14 1.1 −1.01 0 −1.07 0.4 625 2.8 1.27 4.2 1.12 1.2 1.05 0.4 626 0 1.14 1.8 1.34 5.8 1.25 4.2 627 5.3 1.06 0.1 −1.48 1.3 −2.95 6.4 628 8.6 3.13 4.8 3.64 5.4 2.27 2.9 629 1.7 2.01 6.7 1.66 3.7 1.93 6.1 630 0.8 1.38 2.1 1.33 1.6 1.33 1.7 631 2.6 1.80 6.1 1.70 4.8 2.01 7.8 632 5.7 −1.21 1.4 −1.21 1.4 −1.11 0.6 633 1.4 −1.42 4.5 −1.37 3.5 −1.19 1.5 634 13.2 7.98 29.8 8.93 29.9 6.14 26.5 635 1.4 1.26 2.3 1.50 5 1.77 8.8 636 1.7 −1.30 2.3 −1.60 5.2 −1.55 5.1 637 2 1.55 11.2 1.79 15 1.93 18.3 638 0 −1.35 4.6 −1.31 3.5 −1.38 5.1 639 1.7 2.03 7.6 1.38 2.1 1.42 2.6 640 2.6 4.57 11.9 3.25 7.8 1.95 3.6 641 2.6 1.31 1.4 1.24 0.9 1.02 0 642 4.2 1.42 1.8 1.29 1.1 1.44 1.9 643 3.7 3.10 11 2.21 6.2 2.53 8.3 644 0.9 −1.26 2 −1.67 6.4 −1.41 3.8 645 4 1.12 0.4 1.36 1.7 1.30 1.4 646 1.6 1.69 5.2 1.35 2 1.40 2.6 647 5.8 1.88 2 2.40 3 2.13 2.6 648 4.1 −1.22 1.6 1.26 2 1.14 0.9 649 1.9 1.42 5.9 1.74 10.6 1.68 10.3 650 7.4 9.17 13.6 9.19 12.8 5.91 10.2 651 4.4 5.33 10 5.19 9.1 6.31 11.4 652 1.1 −1.43 3.6 −1.60 5.2 −1.40 3.4 653 0.1 −1.08 0.4 −1.59 4.6 −1.38 2.8 654 2.4 −1.74 6.8 −1.47 3.6 −1.38 2.9 655 3.9 1.10 0.5 −1.02 0.1 1.07 0.3 656 5.8 6.64 3.1 2.64 1 1.57 0.4 657 4.1 2.87 11.2 3.16 11.8 2.96 11.7 658 0.9 −1.25 2.6 −1.31 3.2 −1.18 1.6 659 0.2 1.26 3 1.35 4.2 1.37 4.9 660 7 2.08 4.3 1.78 2.8 1.93 3.6 661 3.3 1.51 5 1.51 4.5 1.57 5.6 662 0.1 1.84 12.9 2.08 15.3 1.96 14.6 663 13.2 1.76 8.7 1.60 6.2 1.64 7.2 664 4.4 1.29 2.1 1.44 3.3 1.23 1.5 665 1.9 8.96 15.5 9.61 15.2 6.52 12.7 666 7 9.56 11.5 12.48 12.5 8.20 10.4 667 3.6 2.03 9.6 2.47 12.5 2.20 11.2 668 11.3 9.71 21.1 14.98 23.9 8.02 19.2 669 14.8 4.90 22.5 4.64 20.6 2.50 11.8 670 8 2.09 17 2.31 18.6 2.43 20.8 671 3.9 −1.54 1.1 −2.33 2.9 −3.05 4.8 672 10.6 −1.47 1 −2.97 4.5 −7.79 12.1 673 1.5 −1.05 0.2 −1.12 0.6 −1.26 1.7 674 4.8 1.27 4.7 1.14 1.6 1.10 1.1 675 0.8 −1.16 1.1 −1.53 5 −1.05 0.2 676 9.3 1.95 5.4 1.50 2.3 1.97 5.6 677 4.6 1.21 0.6 −1.25 0.7 −1.12 0.3 678 0.3 1.13 0.4 1.28 0.9 3.08 9.4 679 0.1 −1.37 2.5 −1.70 5.2 −1.33 2.1 680 6.5 2.10 8.1 1.71 4.7 2.12 8.3 681 6.2 2.30 17.3 2.09 14.2 2.32 17.5 682 3.6 1.98 2.2 1.19 0.3 1.10 0.2 683 4.5 2.56 2.7 1.94 1.5 2.33 2.3 684 4.2 1.13 0.2 −1.03 0 −1.09 0.1 685 2.4 −2.20 7.4 −1.12 0.4 −1.13 0.5 686 1.1 −1.27 2.4 −1.38 3.6 −1.54 6.1 687 1.9 1.92 5.8 1.83 4.9 2.36 8.8 688 1.2 2.10 9.6 2.71 13.3 1.94 8.2 689 4.2 26.57 9.9 12.65 6.4 11.38 6.4 690 0.3 1.48 1.7 1.43 1.4 1.48 1.7 691 1.8 6.92 8 3.96 4.4 2.24 2.1 692 0 1.86 4.6 1.70 3.3 1.84 4.5 693 1.5 −2.35 3.9 −2.80 4.9 −1.68 1.8 694 3.5 −1.26 1.1 −1.93 4.9 −1.55 2.8 695 4.2 −1.37 4.1 −1.43 4.7 −1.20 1.8 696 1.3 −1.52 8.2 −1.46 6.5 −1.10 0.9 697 5.7 −1.20 1 −1.09 0.3 1.39 2.6 698 0.2 −1.02 0 −1.16 0.3 −1.25 0.6 699 5.2 3.67 4.3 2.93 3 2.50 2.5 700 0.2 2.97 12 2.49 8.9 2.23 7.9 701 1.4 1.05 0.2 1.03 0.1 1.07 0.2 702 11.2 2.65 4.2 1.67 1.5 1.38 0.8 703 3.3 −1.42 3.7 −1.73 6.7 −1.84 8.3 704 1.1 1.35 2.3 1.18 0.9 1.71 5.8 705 4.5 −2.07 7.9 −1.85 5.8 −1.95 7.1 706 0.6 1.40 4.3 1.39 3.9 1.54 6.4 707 3.5 1.18 0.6 1.01 0 1.26 1 708 2.9 5.20 7.9 5.76 8 2.29 2.8 709 0.3 11.19 5.9 8.87 4.7 6.15 3.8 710 10.6 2.42 4.6 1.56 1.5 1.34 0.9 711 8 −12.24 10.8 −6.60 6.7 −6.88 7.5 712 7 1.05 0.2 1.12 0.7 1.22 1.7 713 3.5 2.72 9.1 2.96 9.5 2.38 7.4 714 1.1 −1.29 2.7 −1.15 1 −1.44 4.7 715 0.2 −1.20 2 −1.38 4.5 −1.30 3.5 716 4.1 −1.11 0.2 1.06 0.1 −1.02 0 717 1 2.00 4.5 2.11 4.7 1.79 3.4 718 2.3 2.63 5.9 1.89 2.9 2.35 4.9 719 4.3 2.31 4.5 2.62 5.2 1.83 2.7 720 2.1 2.45 9.9 3.14 12.9 2.32 9.1 721 3.9 −6.07 3.3 −11.32 4.9 −3.14 1.6 722 0.2 −1.04 0.1 1.16 0.5 2.04 4.7 723 0.6 1.70 6.6 1.54 4.6 1.40 3.3 724 4.6 3.33 5.2 3.15 4.5 2.72 3.9 725 0.1 1.71 3.4 1.55 2.3 2.22 6.4 726 2.5 1.58 1.3 1.33 0.6 1.10 0.2 727 0.1 −1.93 4.3 −1.80 3.3 −1.93 4.3 728 8.8 1.00 0 −1.37 0.7 −1.38 0.7 729 2.8 1.74 3 1.63 2.3 2.40 6 730 4.9 4.69 4 2.60 1.8 4.03 3.4 731 0.1 −1.49 3 −1.82 5.2 −1.79 5.3 732 1.7 −1.11 0.8 −1.41 4.7 −1.21 2 733 1.1 −1.22 2.4 −1.38 4.9 −1.32 4.1 734 1.7 1.03 0.2 1.05 0.3 −1.01 0 735 0 −1.15 0.7 −1.11 0.4 −1.62 4 736 0.2 −2.02 1.6 −3.77 4 −1.59 0.9 737 1.4 3.09 12.5 4.03 15.3 3.43 13.9 738 7 2.15 3.1 2.08 2.7 1.76 2 739 5.5 −3.96 2.4 −4.94 2.8 −1.80 0.7 740 0.6 −1.97 8.1 −2.44 11.1 −4.03 19.1 741 0.1 1.35 1.6 2.27 7.1 2.89 10.8 742 5 2.79 4.3 2.34 3 1.49 1 743 2.4 −1.21 2.7 −1.38 5.7 −1.36 5.7 744 0.5 −1.34 4.5 −1.29 3.4 −1.45 6.5 745 4.6 1.66 1.9 −1.04 0.1 1.04 0.1 746 16.6 −2.02 9.6 −1.78 6.8 −1.09 0.4 747 16.6 −2.02 9.6 −1.78 6.8 −1.09 0.4 748 10.1 21.58 19.8 24.29 19.6 17.93 18.6 749 1.1 −1.05 0.2 −1.14 0.5 1.56 3.5 750 12.5 5.28 19.2 6.51 20.7 3.90 15.2 751 2.2 −1.45 1.5 −2.00 3.8 −3.39 9.4 752 8.8 15.58 11.8 6.23 6.2 12.60 10.6 753 4.4 −1.39 3.9 −1.47 4.7 −1.52 5.8 754 4.7 4.97 11.9 5.56 12.2 2.89 6.7 755 6 1.71 2 1.40 0.9 1.54 1.4 756 1 1.87 4.1 2.05 4.7 2.15 5.6 757 0.9 1.73 4.2 1.77 4.4 2.01 6.4 758 7.6 1.70 2.9 1.67 2.5 1.57 2.2 759 9 31.73 16.7 35.81 16.5 15.91 12.7 760 8.7 2.73 16.7 2.62 15 1.75 7.7 761 1.1 2.94 13.6 4.18 17.9 2.66 12 762 11.3 1.91 5.6 2.01 5.9 1.52 2.8 763 3.2 2.32 7.4 3.09 10.4 3.12 11.2 764 0.3 1.80 3.8 2.30 6.1 2.63 8.1 765 0.4 3.85 6.4 7.98 11 5.96 9.6 766 2.3 3.81 2.2 5.71 3.2 21.36 8 767 8.8 2.31 2.3 1.42 0.6 1.31 0.4 768 3.4 1.47 5.8 1.51 6 1.42 5 769 4.7 1.47 0.8 −1.77 1.4 −1.22 0.3 770 1.1 3.46 11.2 3.40 10.3 3.85 12.4 771 7.9 5.74 20.3 6.90 21.4 5.02 18.6 772 1.9 −1.48 3.4 −1.63 4.4 −1.58 4.3 773 0.1 2.07 6.1 1.42 1.8 1.50 2.4 774 2.5 −1.41 0.8 −1.82 1.8 −2.61 4 775 7.8 1.39 0.7 1.49 0.8 1.13 0.2 776 2.8 −1.04 0.1 −1.11 0.4 −1.23 1 777 0.7 −1.60 4.2 −1.86 5.9 −1.46 3 778 1.9 2.00 5.1 2.24 6 2.21 6.2 779 0.8 2.26 4.8 2.21 4.3 3.04 7.6 780 5.5 1.06 0.3 1.02 0.1 −1.05 0.3 781 5.1 −1.08 0.2 −1.02 0 −1.06 0.2 782 0 1.68 5.5 1.52 3.7 1.25 1.5 783 1.5 3.35 9.2 3.45 8.9 3.28 9 784 4.3 5.68 9.4 5.99 9.1 7.10 11 785 1.3 2.08 9.5 2.07 9.4 1.97 9.1 786 0.8 2.39 8.2 1.91 4.9 1.90 5.2 787 2 1.16 0.5 1.50 2.2 1.55 2.6 788 3 −1.34 1.6 −1.19 0.7 −1.14 0.5 789 0.2 −1.41 2.2 1.54 2.8 2.14 6.8 790 0.7 −1.08 0.4 −1.22 1.4 −1.07 0.3 791 2.4 1.62 4.3 1.65 4.2 1.58 3.9 792 2.1 1.21 0.6 −1.72 2.4 −2.13 4.3 793 1.2 −2.78 3.6 −3.66 4.8 −3.23 4.4 794 9.2 1.92 3.1 1.27 0.7 −1.08 0.2 795 0.7 1.09 0.1 −1.94 1.6 −2.72 3.3 796 3 13.06 6.8 6.49 3.9 2.12 1 797 2 −1.57 5.7 −1.71 7 −1.58 5.8 798 11.1 7.84 20.9 7.22 19.1 4.08 13.5 799 1.1 1.38 2.2 1.65 4.1 1.26 1.4 800 2.6 1.47 8.1 1.53 8.8 1.48 8.5 801 14.2 2.57 12.1 2.52 11 2.95 14.3 802 5.2 1.62 6 1.41 3.3 1.31 2.4 803 2.8 2.14 6.2 2.62 8.1 3.26 11.6 804 3.7 1.80 5.8 1.10 0.4 1.19 0.9 805 0.1 1.25 4.4 1.24 3.9 1.17 2.5 806 1.6 1.32 1.2 2.02 4.5 2.36 6.6 807 9 −1.20 0.4 −2.42 3.3 −2.26 3.1 808 12.9 7.72 23.2 5.96 19.1 4.77 17.4 809 6.6 1.61 6.4 1.62 6.1 1.93 10.1 810 8.2 −1.28 3.3 −1.11 0.9 −1.10 0.8 811 1.7 2.02 0.9 7.38 4.1 3.25 1.9 812 1.5 −1.15 0.8 −1.33 2.2 −1.55 4.4 813 3.2 −1.67 3.2 −1.68 3 −2.09 5.6 814 3 1.14 1.6 1.12 1.1 1.18 2.3 815 4.1 1.01 0.1 1.09 0.9 −1.00 0 816 2 1.47 10.1 1.49 9.8 1.40 8.2 817 0.5 1.38 7 1.58 10.9 1.65 13 818 0.9 1.02 0.1 1.08 0.8 −1.17 2.1 819 0.4 1.86 6.8 2.30 9.6 1.88 6.9 820 1.2 1.22 3.5 1.19 2.7 1.23 3.8 821 1 −1.48 4.3 −1.07 0.3 −1.26 1.9 822 4.3 1.06 0.4 1.26 2.6 1.11 0.9 823 8.5 −1.00 0 1.00 0 1.14 1.2 824 0.8 1.50 4.3 1.94 8.3 1.63 5.6 825 0.9 −1.27 2.8 −1.50 5.9 −1.22 2.1 826 0.5 1.66 5.7 1.54 4.1 1.79 6.9 827 4.3 1.02 0.1 1.16 1.7 1.09 0.8 828 2.3 1.55 4.6 1.03 0.1 −1.19 1.1 829 0.2 −1.54 4.5 −1.68 5.5 −1.69 6

To assign annotation to the differentially expressed genes for the better understanding of their functional roles in the angiogenic processes, a variety of public resources as well as proprietary tools are used including: Affymetrix Netaffx analysis database, GeneCard (Weizmann Institute of Science Crown Human Genome Center, UniGene, RefSeq and LocusLink (Wheeler, D. L., et al., (2001) Nucleic Acids Res., 29, 11-16); SwissProt/TrEMBL (Bairoch, A. and Apweiler, R. (2000) Nucleic Acids Res., 28, 45-48); FANTOM2 (Bono H, et al., Nucleic Acids Res. 2002 Jan. 1; 30(1):116-8); and The Institute of Genomics Research (TIGR) Gene Index databases (Nucleic Acids Res. 2000 Jan. 1; 28(1):141-5).

For those uncharacterized genes or ESTs, a semi-automatic annotation strategy is used combining the following steps: i) Homology search against the major nucleotide and protein databases, including NCBI-nr, Ensembl, SwissProt/SPTreMBL, and GenPept using BLASTX and BLASTP; ii) Function derivation from homolog/orthlog databases, including HomoloGene, TIGR Resourcerer, and TOGA databases (Wheeler, D. L., et al, supra; Tsai J, et al. (2001) Genome Biology 2-11; Genome Res. 2002, 493-502). The results of the annotation process are edited and additional curation is performed to identify the homologous human and mouse DNA sequences and encoded protein sequences.

Based on the annotation and curation process, the 829 probe sets correspond to 736 rat genes. The Affymetrix probe set accession numbers and the corresponding rat, human and mouse representative (RefSeq or GenBank) accession numbers are shown in Table 4. Table 4, being longer than 51-pages, is submitted in duplicate (in compliance with 37 CFR § 1.52(e)(4), separately on one CD-R each, in accordance with 37 CFR §1.52(e)(1)(iii) and 37 CFR §1.58.

Example 4 Construction of Vectors that Express a Gene of the Present Invention

The cDNA sequence for a gene of the present invention is retrieved from suitable public database and two oligonucleotides including one containing the 5′ end of the gene (5′ oligonucleotide) and one containing the 3′ end of the gene (3′ oligonucleotide) are synthesized. Using the above 5′ and 3′ oligonucleotides, the cDNA is amplified by PCR from a suitable animal cDNA library available commercially using a PCR kit. The PCR product is purified and cloned into a vector (e.g. pIRESneo vector (Clonetech Inc., Palo Alto, Calif., USA) by commercially available PCR cloning kit according to the manufacturer's recommendations. The cloned gene is then used to transform competent E. coli cells. Plasmid DNA is isolated and the insert from at least one clone is sequenced to ensure that the gene sequence is correct. Suitable vertebrate cells (e.g. HEK293 cells containing a stably integrated Mercury CRE-LUC plasmid (Clonetech Inc., Palo Alto, Calif., USA) are transfected with purified plasmid DNA. Cells stably transfected with plasmid DNA are selected by culturing the cells in G418. The stably transfected cells are propagated in DMEM (Life Technologies, Rockville, Md.) containing 10% fetal bovine serum at 37° C. in a 5% CO₂. The clones are then characterized to ensure they have the correct gene activity. Cells expressing the gene at an appropriate level may then be utilized for further analysis.

Example 5 Binding Assays

Binding analysis of compounds is performed in whole cells by plating the cells from Example 2 expressing a gene of the present invention in a 96 well plate. Cells are seeded in DMEM medium containing 10% fetal bovine serum at 37° C. in a 5% CO₂ and incubated overnight. The culture medium is removed and the appropriate amount of suitably labeled compound is added. The cells are incubated for 90 minutes at room temperature then washed 4 times with phosphate buffered saline. Following the final wash the plate is analyzed for binding. For saturation binding analysis, log doses of a compound ranging from 10⁻¹² to 10⁻³ M are added to the cells and binding analyzed both in the absence and in the presence of a saturating concentration of unlabeled compound for evaluation of non-specific binding. The binding analysis may differentiate various compounds based on the binding affinities.

Example 6 Activation Assay

Activation analysis is performed by seeding the cells of Example 2 into Packard View Plate-96 (Packard Inc., CA). Cells are seeded in DMEM containing 10% fetal bovine serum at 37° C. in a 5% CO₂ and incubated overnight. The medium is then removed and replaced with DMEM containing 0.01% bovine albumin fraction V containing the compound of interest. The cells are further incubated for four hours at 37° C. after which the medium is removed and the cells are washed twice with Hanks Balanced Salt Solution (HBSS). Lysis Reagent is then added to the washed cells and incubated for 20 minutes at 37° C. The cells are then placed at −80° C. for 20 minutes followed by a 20-minute incubation at 37° C. After this incubation, Luciferase Assay Buffer and Luciferase Assay Substrate (Promega Inc., Madison, Wis.) are added to the cell lysates and luciferase activity quantitated using a luminometer. Relative activity of a compound is evaluated by comparing the increase following exposure to compound to the level of luciferase in HEK cells that contain the CRE-LUC construct without the gene of interest following exposure to compound. Specificity of response is also checked by evaluating the luciferase response of hCR/CRE-LUC HEK cells to compound in the presence and absence of a 10-fold excess of an antagonist.

Example 7

Proteins of the inventions could be further characterized in functional assays and agonists or antagonists of these proteins may be screened using assays known to one skilled in the art. Following are some exemplary assays that could be used.

Cell Proliferation Assay Using NIH 3T3 Cells

To measure cell proliferation in response to protein growth and differentiation factor, NIH 3T3 cells are plated at a seeding density of 5×10³ cells per well in 96-well plate. After 24 h incubation at 37° C. in 5% CO₂, cell culture medium is aspirated and cells are washed with serum-free DMEM. After washing, cells are treated with different doses of growth and differentiation factor or vehicle suspended in serum-free medium for 24 h. Cell number is measured by a colorimetric method using CellTiter reagent from Promega. CellTitre assay is performed by adding 20 μl of the CellTiter Reagent to each well of 96-well culture plate. Cells are incubated for 3 hours at 37° C. and then absorbance is measured at 490 nm with a 96-well plate reader. Absorbance value obtained in samples is converted into cell numbers extrapolated from established standard curve.

Ion Channels

Single HEK cells expressing the human potassium current HERG ion channel are used to test the effects of compounds on HERG. Only cells displaying stable currents with biophysical characteristics typical of HERG are used. Current—voltage relationships for each cell are recorded three times before and after exposure to test compounds. Compounds are prepared freshly as stock solutions and diluted in standard Tyrodes buffer. Compounds are gravity perfused through the recording chamber at a rate of 3-5 mls/min. Cells are exposed to each concentration of drug for at least 5 minutes. Deactivating tail currents (time 500 to 1000 msec) are measured at their peak amplitudes and used to assess the effects of these compounds on HERG.

HEK cells transfected with HERG are recorded with an Axopatch 1-D patch-clamp amplifier in the whole-cell configuration of the patch-clamp technique. Data acquisition and command potentials are controlled with a commercial software program (PCLAMP, Axon Instruments). The external solution is normal Tyrode's solution and contained (mM): NaCl 130, KCl 4, CaCl₂ 1.8, MgCl₂ 1, Hepes 10 and glucose 10 (pH adjusted to 7.35 with NaOH). The internal (pipette) solution is in mM: KCl 110, K₂ATP 5, K₄BAPTA 5, MgCl₂ 1, and Hepes 10 (pH adjusted to 7.2 with KOH). Microelectrodes are pulled from borosilicate glass and heat-polished (pipette tip resistance, 3-6 M). Ion currents are recorded at room temperature (22-23° C.). Command potentials are applied for 1.5 sec from a holding potential of −65 mV. Current is recorded from 500 msec depolarizing pulses ranging from −40 mV to +80 mV in 20 mV increments. Deactivating tail currents (500 msec) are recorded from preceding depolarizing pulses by returning to −45 mV.

Screening for a Kinase Inhibitor

In order to screen for kinase inhibitors, the Promega Kinase-Glo™ Luminescent Kinase Assay is used according to the methods recommended by the manufacturer. Briefly, to each well in a 96 well plate, add the mixture containing 2× the optimal concentration of kinase and kinase substrate. Then add an optimal concentration of the test compound, mix, add the optimal concentration of ATP. Mix the plate and incubate for the optimal amount of time to ensure complete reaction. Add the optimal amount of Kinase-Glo™ reagent to all wells, mix and incubate at room temperature for 10 minutes to stabilize the luminescent signal and record luminescence reading.

Screening for a Phosphatase Inhibitor

To screen for the PTPase inhibitory activity, testing of the subject compounds is carried using various assays known to those skilled in the art. For example, a DiFMUP Phosphatase Assay is described. DiFMUP (“6,8-difluoro-4-methylumbelliferyl phosphate”) (Molecular Probes) (10 mM) is incubated for 15 minutes with nM concentrations of phosphatase in buffer containing 50 mM Tris (pH 7), 150 mM NaCl, 5 mM DTT, 1 mM EDTA, 0.01% BSA. The resulting phosphatase product is measured at 355/460 nm (ex/em) using a Victor V plate reader (Wallac). Inhibitors (0.002-40 mM) are pre-incubated with phosphatase for 10 minutes prior to addition of DiFMUP substrate. IC50 curves are generated using Excel-Fit®.

Example 8 Cornea Micropocket Assay Material and Methods: The Mouse Micropocket Corneal Assay

The mouse micropocket corneal assay is carried out according to procedures described (Kenyon, B. M., E. E. Voest, C. Chen, E. Flynn, J. Folkman and R. J. D'Amato, 1996. Invest. Ophthal. Visula Sci. 37: 1625-1632). Mice (strain C57BL/6) weighing 25-35 grams are used for the study. ETL k/o and control mice are purchased from Deltagen, Inc (San Carlos, Calif.). Animals are anesthetized with intraperitoneal injection of ketamine (100 mg/kg) and xylazine (25 mg/kg) and the eyes are topically anesthetized with 0.5% tetracaine HCl ophthalmic solution. Under an operating microscope, a central intrastromal linear keratotomy is performed with a surgical blade parallel to the insertion of the lateral rectus muscle. Using a modified von Graefe cataract knife, a corneal micropocket is created. Into the eye, a 0.4 mm×0.4 mm×0.2 mm sucrose aluminum sulfate pellet coated with 12% hydron polymer (Interferon Sciences, New Brunswick, N.J.) containing 60 ng of VEGF₁₆₅ is placed into the pocket 0.5-0.7 mm from the temporal limbus. Vetropolycin ophthalmic ointment is applied and animals are allowed to recover. Corneal angiogenesis is evaluated 5 days after the implantation using vascular FITC-dextran fluorescent imaging technique. Animals are anesthetized as described previously and FITC-dextran (molecular weight=500 K) dissolved in the saline is injected intravenously into the jugular vein at a dose of 50 mg/kg. Fluorescent images are acquired with a digital (Micropublisher RTV 5.0) image acquisition system. The filter wavelengths are set for excitation and emission at 480 nm and 515 nm, respectively.

Gene Expression in Human Cell Lines

Human vascular cell lines are obtained from Cambrex/BioWhittaker Cell Biology Products (Walkersville, Md.), including, aortic smooth muscle cells (AoSMC; n=2), coronary artery smooth muscle cells (CaSMC; n=3), pulmonary artery smooth muscle cells (PASMC; n=3), aortic endothelial cells (HAEC; n=3), coronary artery endothelial cells (HCAEC; n=3), pulmonary artery endothelial cells (HPAEC; n=2), umbilical vein endothelial cells (HUVEC; n=3), dermal microvascular endothelial cells (HMVEC-D; n=3) and lung microvascular endothelial cells (HMVEC-L; n=3). Cells are cultured as described by the manufacturer. For the final passage, cells are plated in 100 mm plates with 5 ml of culture media. The media is removed and replaced with 1 mL of Trizol Reagent (Gibco BRL, Carlsbad Calif.) and stored at −80° C. mRNA is isolated as described for the aortic ring and cornea samples. For the human cell lines, Human U133A/B Affymetrix Genechips are used. The statistical analysis is based on the Affy signal (MAS 5.0) and Affy Absent/Present calls.

Zebrafish Studies

List of Abbreviations: dpf (days post-fertilization); hpf (hours post-fertilization); ISVs (intersegmental vessels); MO (morpholino).

To assess gene function in zebrafish (Danio rario) angiogenesis, MOs directed against ETL, GPR (or GPR176) and their respective mismatch controls are microinjected into zebrafish at the 1-2 cell stage. Blood circulation through the intersegmental vessels (ISVs) is observed in live zebrafish at 48 hpf and morphology of ISVs in the tail at 48 hpf using Phy-V antibody staining is also examined as described (Seng W. L. et al., Angiogenesis. 2004; 7(3):243-53.). The sequence for the ETL morpholino is: GCAGGAGTTTCATTGGAGAACTGTG. The sequence for the mismatch ETL morpholino (small case letters indicate mismatches) is: GCAcGAcTTTgATTGGAcAACTcTG. The sequence for the GPR morpholino is: AGCTCTCCGCGTTATCCGCCTCCAT. The sequence for the mismatch ETL morpholino (small case letters indicate mismatches) is: AGgTCTgCGCcTTATCCcCCTCgAT.

Results

The gene expression profile of EGF-TM7-latrophilin-related protein (ETL) indicates that this may be a gene of interest for angiogenesis. ETL is a recently discovered receptor that has been classified into the adhesion family of G-protein coupled receptors (GPCRs). ETL's large extracellular domain contains EGF modules, a Ser/Thr rich linker region and a Cys-rich proteolysis domain (Nechiporuk T. J. Biol. Chem. 276, 6, 4150-4157, 2001). Transcriptional profiling of ETL demonstrates that it is present in cultured, human smooth muscle and endothelial cells with higher expression noted in the endothelial cells examined (FIG. 1). These data indicate that ETL is expressed in the vascular cells and may contribute to blood vessel regulation. In addition, data show that ETL transcript levels are significantly increased in the rat cornea cauterization model (FIG. 2) and the rat aortic ring model (FIG. 3). The expression of ETL in these models parallels the changes in vascularity, supporting the contention that ETL may play a role in angiogenesis and/or vascular remodeling. In the cornea, ETL expression increases dramatically in the sections that include the neovessels (“cornea”), indicating the ETL expression is higher in newly formed and developing blood vessels. In the aortic ring, ETL expression increases throughout the study and its expression does not respond in the aortic ring samples that have had the endothelial cell removed (“denuded”), suggesting that ETL is expressed and transcriptionally regulated in the rat endothelial cells during angiogenesis. Alternatively, these data suggest that ETL expression levels may be a marker of blood vessel growth and/or development. ETL is reportedly present in the heart and is developmentally regulated, suggesting that ETL may have a role in the quiescent adult vasculature and during angiogenesis (Nechiporuk T. JBC, 276, 6, 4150-4157 2001).

The gene expression profile of GPR indicates that this may be a gene of interest for angiogenesis. A novel GPCR, now designated GPR176, was cloned from rat and human cDNA libraries by using probes generated by PCR amplification with degenerate oligonucleotide primers (Ishizaka, N., Okazaki, H., Kurokawa, K., Kumada, M., and Takuwa, Y. (1994) Biochem. Biophys. Acta. 1218:173-180. and Hata, S., Emi, Y. Jyanagi, T. and Osumi, T. (1995) Biochem. Biophys. Acta. 1261:121-125). Data indicate that GPR is expressed in human endothelial cell lines and human vascular smooth muscle cell lines isolated from a variety of vascular beds (FIG. 4). In the rat cornea model, expression of GPR is increased 2-3 fold during vessel growth and maturation, and decreases towards normal levels after vessels remodel (FIG. 5). These data indicate that GPR expression may be regulated in both the limbal vessels and the neovascular sprouts. In the rat aortic ring model, increased expression of GPR is observed from day 4 onward (FIG. 6). Differential expression at earlier timepoints in normal and denuded rat aortic ring suggests that GPR may be playing a role in both the smooth muscle and endothelial cells.

In Vivo Experiments

While transcriptional gene changes provide the basis for investigating ETL and GPR as regulators of vascular development, experiments are carried out to obtain functional evidence that ETL and GPR are involved in blood vessel growth and development. To accomplish this, a zebrafish model may be used with ETL or GPR morpholino oligos to reduce gene expression during vasculogenesis. Morpholino knockdown of ETL transcript levels results in developmental abnormalities (FIG. 7) and aberrant blood vessel formation (FIG. 8), suggesting an important role for this protein in blood vessel development. Experiments in zebrafish using 0.5 pmol ETL MO and their respective mismatch controls show that zebrafish injected with ETL MO have visible circulatory defects (slow circulation or incomplete circulation through the intersegmental vessels) and results in slightly curved body morphology in the live zebrafish at 48 hpf. This effect is not seen in control MO injections. Examination of ISVs by immunostaining at 48 hpf shows abnormal connections and incomplete vessel formation (FIG. 4) in 100% of the zebrafish in this experiment. Addition of 0.25 pmol dose of ETL MO shows the same phenotype as the 0.5 pmol dose, although the number of zebrafish affected is lower (70%) demonstrating that the phenotype may be specific and dose-dependent, but not due to toxic side effects.

Experiments in zebrafish using 0.5 pmol of GPR MO and its respective mismatch controls show that the 0.5 pmol dose of GPR MO causes visible circulatory defects (slow circulation or incomplete circulation through the ISVs) and results in slightly curved body morphology in the live zebrafish at 48 hpf (FIG. 7). This effect is not seen in control MO injections. Examination of ISVs by immunostaining at 48 hpf shows abnormal connections and incomplete vessel formation (FIG. 9) in 76% of the zebrafish assessed in experiment 1 and 94% in experiment 2. Addition of 0.25 pmol GPR MO shows a similar phenotype as the 0.5 pmol dose, although the number of zebrafish affected (37%) was lower, demonstrating that the phenotype may be specific and dose-dependent, but not due to toxic side effects

To further investigate the role of ETL in blood vessel growth, ETL knockout mice are obtained from Deltagene and cornea micropocket studies are performed as described (Kenyon, B. M et. al. Invest. Ophthal. Visula Sci. 37: 1625-1632). A 60 ng pellet of VEGF₁₆₅ is inserted and vessel growth is quantitated. ETL KO mice exhibit significantly reduced blood vessel growth towards the VEGF₁₆₅ pellet compared to WT mice, suggesting that ETL plays an important role in blood vessel growth and/or development (FIG. 10).

Except as otherwise noted, all amounts including quantities, percentages, portions, and proportions, are understood to be modified by the word “about”, and amounts are not intended to indicate significant digits.

Except as otherwise noted, the articles “a”, “an”, and “the” mean “one or more”.

All documents cited herein are, in relevant part, incorporated herein by reference; the citation of any document is not to be construed as an admission that it is prior art with respect to the present invention.

While particular embodiments of the present invention have been illustrated and described, it would be obvious to those skilled in the art that various other changes and modifications may be made without departing from the spirit and scope of the invention.

It is therefore intended to cover in the appended claims all such changes and modifications that are within the scope of this invention.

TABLE 4 Affymetrix Affymetrix GenBank Probe Set Accession Rat RefSeq Human RefSeq Mouse RefSeq No. Accession No. No. Rat RefSeq Description Accession No. Accession No. Accession No. 1 1373696_AT AI171656 LOC362536 (LOC362536), mRNA XM_347061 2 1392471_AT BI302750 Guanine nucleotide binding protein 12 XM_347046 NM_018841 NM_025278 3 1373695_AT AI176675 LOC360360 hypothetical gene supported by XM_346651 NM_002721 NM_024209 NM_133589 4 1374626_AT BG371585 Rattus norvegicus similar to leucine-rich XM_346143 NM_052972 NM_029796 alpha-2-glycoprotein (LOC367455), mRNA 5 1389966_AT AI176126 Similar to alpha 3 type VI collagen isoform 1 XM_346073 NM_004369 NM_009935 1396055_AT AW530165 precursor; collagen VI, alpha-3 polypeptide NM_057164 (LOC367313), mRNA NM_057165 NM_057166 NM_057167 6 1388120_AT BE328942 programmed cell death 6 interacting protein XM_346006 NM_013374 NM_011052 AF192757 7 1391421_AT AI599819 Similar to Acyl-CoA dehydrogenase family XM_345912 NM_014384 NM_025862 member 8, mitochondrial precursor (ACAD- 8) (Isobutyryl-CoA dehydrogenase) (LOC367046), mRNA 8 1373483_AT AA963764 Similar to NG28 (LOC366848), mRNA XM_345803 NM_198471 NM_030697 9 1392490_AT BM390676 Similar to RIKEN cDNA 1110007C24 XM_345621 NM_018202 NM_025382 (LOC366524), mRNA 10 1390846_AT BG380309 Similar to alpha 1 type XVI collagen XM_345584 NM_001856 NM_028266 precursor; collagen XVI, alpha-1 polypeptide (LOC366474), mRNA 11 1375277_AT AA800680 Similar to smooth muscle myosin XM_345324 NM_025980 1382138_AT BG380221 phosphatase regulatory subunit homolog family member, Maternal Effect Lethal MEL- 11 (110.6 kD) (mel-11) (LOC366002), mRNA 12 1398348_AT AA945604 Similar to dimethylarginine XM_345299 NM_012137 NM_026993 dimethylaminohydrolase 1; NG, NG dimethylarginine dimethylaminohydrolase (LOC365956), mRNA 13 1373151_AT AW252169 Similar to lipoma HMGIC fusion partner XM_345210 NM_005780 NM_175386 (LOC365795), mRNA 14 1379335_AT AI639045 Similar to Polyadenylate binding protein- XM_345160 NM_006451 NM_145457 interacting protein 1 (LOC365684), mRNA NM_182789 NM_183323 15 1374207_AT BI275292 Rattus norvegicus angiopoietin-2 (Agpt2), XM_344544 NM_001147 NM_007426 mRNA 16 1399019_AT AI407868 Similar to RIKEN cDNA 1110035H23 XM_344403 NM_022060 NM_134076 (LOC364380), mRNA 17 1371016_AT BM386010 Rattus norvegicus T cell receptor V alpha 23 XM_344402 XM_356740 chain subunit mRNA, partial cds 18 1374104_AT BI281680 claudin 5 XM_344058 NM_003277 NM_013805 19 1373557_AT AI145081 mini chromosome maintenance deficient 4 XM_344048 NM_005914 NM_008565 homolog (S. cerevisiae) NM_182746 20 1388492_AT AW919111 Similar to ABINl, A20-binding inhibitor of XM_343894 NM_006058 NM_021327 NF-kappa B activation (large) (LOC363599), mRNA 21 1373379_AT BF396350 Similar to Interleukin-1 receptor-associated XM_343844 NM_001569 NM_008363 kinase 1 (IRAK-1) (IRAK) (Pelle-like protein kinase) (mPLK) (LOC363520), mRNA 22 1372947_AT BG672591 Rattus norvegicus plastin 3 (T-isoform) XM_343776 NM_005032 NM_145629 23 1371037_AT U06230 protein S XM_343650 NM_000313 NM_011173 24 1388533_AT BM390302 Similar to golli-interacting protein XM_343588 NM_021198 NM_153088 (LOC363249), mRNA NM_182642 25 1388449_AT AI175551 Rattus norvegicus similar to eukaryotic XM_343580 NM_001959 NM_018796 translation elongation factor 1 beta 2 NM_021121 (LOC363241), mRNA 26 1373463_AT AI172281 Collagen, type V, alpha 2 XM_343564 NM_000393 NM_007737 27 1389546_AT BF418582 Angiomotin like 2 XM_343457 NM_016201 NM_019764 28 1374816_AT AI103939 Similar to hypothetical protein FLJ30973 XM_343423 NM_152451 XM_194467 (LOC363091), mRNA 29 1388204_AT M60616 matrix metalloproteinase 13 XM_343345 NM_002427 NM_008607 30 1374474_AT BE099085 Similar to copine family member XM_343318 NM_153634 NM_025815 (LOC362988), 31 1388568_AT AA891553 Similar to eukaryotic translation initiation XM_343283 NM_003753 NM_018749 factor 3 subunit 7; eukaryotic translation initiation factor 3, subunit 7 (zeta, 66/67 kD); translation initiation factor eIF3 p66 subunit (LOC362952), mRNA 32 1372084_AT AI104546 Rattus norvegicus similar to protein tyrosine XM_343259 NM_032611 NM_008975 phosphatase type IVA, member 3 isoform 1; NM_007079 potentially prenylated protein tyrosine phosphatase (LOC362930), mRNA 33 1370956_AT BM390253 decorin XM_343201 NM_001920 NM_007833 NM_133503 NM_133504 NM_133505 NM_133506 NM_133507 34 1393401_AT BE109323 Similar to 9530046H09Rik protein XM_343181 NM_016496 NM_145486 (LOC362849), mRNA 35 1388602_AT AI237358 adipsin XM_343169 NM_001928 NM_013459 36 1384900_AT AW530806 Similar to MOB-LAK (LOC362833), mRNA XM_343161 NM_024761 NM_178061 NM_130807 37 1373874_AT AI169638 LOC81536: Sphingosine-1-phosphate XM_343081 NM_030791 NM_030750 phosphohydrolase 38 1376106_AT AI010157 Similar to hypothetical protein MGC33926 XM_343007 NM_152390 NM_026516 (LOC362691), mRNA 39 1393067_AT AI710931 Tek: Endothelial-specific receptor tyrosine XM_342863 NM_000459 NM_013690 kinase 40 1374176_AT AI408727 Similar to DNA segment, Chr 4, Brigham & XM_342853 NM_203403 NM_026821 Womens Genetics 0951 expressed (LOC362535), mRNA 41 1373881_AT BF285771 Similar to GDP-dissociation inhibitor XM_342777 NM_001175 NM_007486 (LOC362456), mRNA 42 1367463_AT AI235510 B-cell receptor-associated protein 37 XM_342755 NM_007273 NM_007531 43 1385057_AT AA819868 Similar to RIKEN cDNA 9030407H20 XM_342740 NM_018306 NM_144805 (LOC362420), mRNA 44 1389153_AT BI296087 Hypothetical RNA binding protein RDA288 XM_342705 NM_015640 NM_025814 45 1388493_AT AI600030 Similar to Expressed sequence AW146242 XM_342698 NM_030796 NM_146168 (LOC362374), mRNA 46 1371999_AT BI303641 Rattus norvegicus similar to dJ862K6.2.2 XM_342569 NM_006275 NM_026499 (splicing factor, arginine/serine-rich 6 (SRP55-2)(isoform 2)) (LOC362264), mRNA 47 1372729_AT AI137406 Rattus norvegicus similar to endothelial cell XM_342554 NM_006404 NM_011171 protein C/APC receptor (LOC362248), mRNA 48 1371625_AT AA800190 brain glycogen phosphorylase XM_342542 NM_002862 NM_153781 49 1370855_AT BG666933 cystatin C XM_342538 NM_000099 NM_009976 50 1395663_AT BM390763 Similar to BENE protein (LOC362211), XM_342514 NM_005434 NM_145532 mRNA 51 1389573_AT AI170665 Similar to RIKEN cDNA 1810008K03 XM_342497 NM_024111 NM_026929 (LOC362196), mRNA 52 1388243_AT BG663422 putative G protein coupled receptor XM_342493 NM_007223 NM_201367 53 1383863_AT BF288303 Similar to rhombotin homolog 2 - mouse XM_342475 NM_005574 NM_008505 (LOC362176), mRNA 54 1376775_AT AI059078 Similar to RIKEN cDNA 2600010E01 XM_342471 NM_024841 NM_175181 (LOC362171), mRNA 55 1374575_AT BI304123 Similar to old astrocyte specifically induced XM_342466 NM_052854 NM_011957 substance (LOC362165), mRNA 56 1373374_AT BM389691 Similar to LIM domain only 4; LIM only 4; XM_342353 NM_006769 NM_010723 ethanol induced 4 (LOC362051), mRNA 57 1388356_AT AI406499 Similar to RIKEN cDNA 2300002L21 XM_342291 NM_080388 NM_026416 (LOC361991), mRNA 58 1373911_AT BM389026 Similar to osteoblast specific factor 2 XM_342245 NM_006475 NM_015784 precursor (LOC361945), mRNA 59 1386080_AT BE107815 Hairy/enhancer-of-split related with YRPW XM_342216 NM_012258 NM_010423 motif 1 60 1374586_AT AI103993 Similar to RIKEN cDNA C230032K13 XM_342197 NM_019087 NM_172595 (LOC361900), mRNA 61 1371369_AT BI287851 Rattus norvegicus similar to procollagen, type XM_342115 NM_001849 NM_146007 VI, alpha 2 (LOC361821) NM_058174 NM_058175 62 1388521_AT BG380693 Similar to pyrroline-5-carboxylate synthetase XM_342048 NM_002860 NM_019698 (LOC361755), mRNA NM_153554 63 1373970_AT AI716248 Similar to RIKEN cDNA 9230117N10 XM_342042 NM_033439 NM_133775 (LOC361749), mRNA 64 1373258_AT AI169359 Rattus norvegicus similar to cathepsin F XM_341987 NM_003793 NM_019861 (LOC361704) 65 1373829_AT AI412658 Fibroblast growth factor receptor 2 XM_341940 NM_000141 NM_010207 NM_022969 NM_201601 NM_022970 NM_022971 NM_022972 NM_022973 NM_022974 NM_022975 NM_022976 NM_023028 NM_023029 NM_023030 NM_023031 66 1388955_AT BE110691 Putative eps protein XM_341794 NM_014601 NM_153068 67 1390141_AT BF281848 Similar to 2410004L15Rik protein XM_341750 NM_015440 NM_172308 (LOC361472), mRNA 68 1390388_AT BF283951 Similar to ferrochelatase (LOC361338), XM_341622 NM_000140 NM_007998 mRNA 69 1372818_AT BI284441 Collectin sub-family member 12 XM_341574 NM_030781 NM_130449 NM_130386 70 1373592_AT AI407094 Similar to SPI6 (LOC361241), mRNA XM_341522 NM_009256 NM_011452 71 1388945_AT BM385779 Similar to 1300014I06Rik protein XM_341518 NM_183373 NM_025831 (LOC361238), mRNA 72 1375898_AT AW252379 Similar to RNA-binding protein with multiple XM_341447 NM_006867 NM_019733 splicing (RBP-MS) (LOC361161), mRNA 73 1381190_AT AI598833 Similar to KIAA0858 protein (LOC361084), XM_341368 XM_354836 mRNA 74 1371694_AT AI317805 Dihydropyrimidinase-like 2 XM_341342 NM_001386 NM_009955 1380728_AT BE118404 75 1373515_AT BI275737 Rattus norvegicus similar to RIKEN cDNA XM_341259 NM_014181 NM_173752 1110067D22 (LOC360983) 76 1389464_AT BE120953 Rattus norvegicus similar to multi-PDZ- XM_341204 NM_032622 NM_010727 domain-containing protein (LOC360926), mRNA 77 1371250_AT AI169104 Similar to Platelet factor 4 precursor (PF-4) XM_341192 NM_002619 NM_019932 (CXCL4) (LOC360918), 78 1371447_AT BG378630 Rattus norvegicus similar to onzin XM_341188 NM_016619 NM_139198 (LOC360914), mRNA 79 1392171_AT AA945643 chitinase 3-like 1 (cartilage glycoprotein-39) XM_341123 NM_001276 NM_007695 80 1383949_AT AI703880 LOC360817 similar to KIAA1025 protein XM_341090 NM_015335 NM_172424 81 1388750_AT BF417032 Rattus norvegicus transferrin receptor (Tfrc) XM_340999 NM_003234 NM_011638 82 1387897_AT L16532 cyclic nucleotide phosphodiesterase 1 XM_340904 NM_033133 NM_009923 1370693_A_AT M18630 83 1388392_AT BI274159 Similar to Tax interaction protein 1 XM_340841 NM_014604 NM_029564 (LOC360564), mRNA 84 1386833_AT BF554138 Rattus norvegicus similar to BAZF XM_340830 NM_181844 NM_007528 1394375_X_AT (LOC360551), mRNA 85 1372610_AT BI274349 Rattus norvegicus similar to Prolyl 4- XM_340798 NM_004199 NM_011031 hydroxylase alpha IIa subunit (LOC360526), mRNA 86 1370927_AT BE108345 Rattus norvegicus similar to Collagen alpha XM_243912 NM_004370 NM_007730 1(XII) chain precursor (LOC315838), mRNA NM_080645 87 1372518_AT AI176918 Rattus norvegicus similar to Fbln1 protein XM_243637 NM_006487 NM_010180 (LOC315191), mRNA NM_006485 NM_001996 NM_006486 88 1388459_AT AI101782 collagen, type XVIII, alpha 1 XM_241632 NM_030582 NM_009929 1388143_AT BI288582 NM_130445 NM_130444 89 1390706_AT BF392456 spectrin beta 2 XM_240072 NM_003128 NM_009260 NM_178313 NM_175836 90 1388618_AT BM389302 Similar to Nidogen 2 (LOC302248), mRNA XM_238622 NM_007361 NM_008695 91 1374477_AT BE113700 Paired related homeobox 2 XM_238327 NM_016307 NM_009116 92 1385444_AT AI071994 Similar to Dickkopf related protein-2 XM_238256 NM_014421 NM_020265 precursor (Dkk-2) (Dickkopf-2) (mDkk-2) (LOC295445), mRNA 93 1393240_AT AI112299 Similar to mutant p53 binding protein 1 XM_238154 NM_016938 NM_021474 (LOC293677), mRNA 94 1374678_AT BE109578 Similar to Semaphorin 4B (Semaphorin C) XM_238119 NM_020210 NM_013659 (Sema C) (LOC293042), mRNA NM_198925 95 1388131_AT X03369 Rat mRNA for beta-tubulin T beta15 XM_238004 NM_001069 NM_009450 96 1388792_AT AI599423 Similar to GROWTH ARREST AND DNA- XM_237999 NM_006705 NM_011817 DAMAGE-INDUCIBLE PROTEIN GADD45 GAMMA (LOC291005), mRNA 97 1390403_AT BE108405 Similar to CG8312-PA (LOC288031), XM_237838 NM_153690 NM_177632 mRNA 98 1371596_AT AI008971 Rattus norvegicus similar to Rnps1 protein XM_237758 NM_006711 NM_009070 (LOC287113), mRNA NM_080594 99 1367579_A_AT BI285434 Rattus norvegicus similar to tubulin, alpha 6; XM_237718 NM_032704 NM_009448 tubulin alpha 6 (LOC300218) 100 1388926_AT AI409048 Similar to ectonucleotide XM_236956 NM_021572 NM_032003 pyrophosphatase/phosphodiesterase 5 (LOC316249), mRNA 101 1381311_AT BE100625 Rattus norvegicus similar to cell surface XM_236797 NM_001974 NM_010130 glycoprotein (LOC316137), mRNA 102 1379461_AT BE120147 Rattus norvegicus similar to zinc finger XM_236726 NM_181489 NM_173364 protein (LOC301076), mRNA 103 1371727_AT AA893350 Galactosidase, beta 1 XM_236675 NM_000404 NM_009752 104 1383484_AT AW920193 Similar to KIAA1585 protein (LOC315959) XM_236567 NM_018133 XM_150227 105 1374849_AT BF285745 Similar to a disintegrin and metalloprotease XM_236471 NM_014272 XM_135041 with thrombospondin motifs-7 preproprotein (LOC315879), mRNA 106 1374129_AT AI104518 similar to AI449441 protein (LOC300793), XM_236355 NM_002537 NM_010952 Rattus norvegicus transcribed sequence with strong similarity to protein sp: O95190 (H. sapiens) OAZ2_HUMAN Ornithine decarboxylase antizyme 2 (ODC-Az 2) (AZ2) 107 1374013_AT BI278078 Rattus norvegicus similar to complement-c1q XM_236180 NM_015645 tumor necrosis factor-related protein (LOC315598), mRNA 108 1388703_AT BF285026 Similar to endothelial cell-selective adhesion XM_236058 NM_138961 NM_027102 molecule (LOC300519), mRNA 109 1390914_AT AI071474 Similar to retrovirus integration site XM_235979 NM_002017 NM_008026 1393249_AT BF407924 (LOC315532), mRNA 110 1389483_AT AI408686 Similar to KIAA0877 protein (LOC315496), XM_235970 XM_371891 NM_172920 mRNA XM_374422 111 1371356_AT BI294836 Rattus norvegicus similar to Tenc1 protein XM_235710 NM_015319 (LOC315326), mRNA NM_170754 NM_198316 112 1388728_AT BI282923 Similar to lysosomal-associated XM_235393 NM_018407 NM_033521 transmembrane protein 4 beta (LOC315047), mRNA 113 1374134_AT BM384057 Similar to SERINE/THREONINE-PROTEIN XM_235049 NM_002595 NM_146239 1394473_AT AI716206 KINASE PCTAIRE-2 (LOC314743), mRNA 114 1372861_AT BG380713 Rattus norvegicus similar to R31449_3 XM_234925 NM_012398 XM_137157 (LOC314641), mRNA 115 1373301_AT BE113133 Similar to protein phosphatase 1, regulatory XM_234555 NM_015316 NM_011625 (inhibitor) subunit 13B; apoptosis-stimulating protein of p53, 1 (LOC314465), mRNA 116 1390782_AT BI295930 Similar to RIKEN cDNA 1200003C23 XM_234194 NM_175060 NM_025809 (LOC314148), mRNA 117 1372294_AT BI278571 Similar to mKIAA0230 protein XM_234038 XM_056455 XM_283052 1375862_AT BM384701 (LOC314016), mRNA 118 1390159_AT AA819332 Similar to RAS guanyl releasing protein 3 XM_233873 NM_170672 NM_207246 (calcium and DAG-regulated); guanine nucleotide exchange factor for Rap1 (LOC313874), mRNA 119 1373554_AT BE349698 Similar to SPRY domain-containing SOCS XM_233686 NM_025106 NM_029035 box protein SSB-1 120 1372569_AT AI171676 Similar to four and half LIM domain protein XM_233499 NM_004468 NM_010213 3 (LOC313582), mRNA 121 1389324_AT BI289129 Tyrosine kinase receptor 1 XM_233462 NM_005424 NM_011587 122 1397644_AT BI278369 Similar to 5-methylthioadenosine XM_233168 NM_002451 NM_024433 phosphorylase (MTA phosphorylase) (MTAPase) (LOC298227), mRNA 123 1372127_AT BI275824 Similar to ubiquitin-associated protein 2 XM_232901 NM_018449 NM_026872 (LOC313169), mRNA NM_020867 NM_148171 124 1392990_AT AI031004 Similar to HMG-box transcription factor XM_232640 NM_022454 NM_011441 (LOC312936), mRNA 125 1372088_AT AI012434 Similar to protein tyrosine phosphatase, XM_232536 NM_003622 XM_132960 receptor-type, F interacting protein, binding NM_177444 protein 2; liprin beta 2 (LOC312855), mRNA 126 1371602_AT BI274110 Rattus norvegicus similar to Tetraspan NET- XM_232372 NM_006675 NM_175414 5 (LOC312728), mRNA 127 1393917_AT BF555488 Similar to macrophage hemoglobin scavenger XM_232342 NM_004244 NM_053094 receptor CD163 precursor (LOC312701), NM_203416 mRNA 128 1389341_AT AI102248 Similar to plexin D1; KIAA0620 protein XM_232283 NM_015103 XM_149784 (LOC312652), mRNA 129 1389533_AT AA944398 Fibulin 2 XM_232197 NM_001998 NM_007992 130 1379847_AT AW141858 Similar to Dysferlin (Dystrophy associated XM_232123 NM_003494 NM_021469 1392786_AT BG668812 fer-1 like protein) (Fer-1 like protein 1) (LOC312492), mRNA 131 1376265_AT AI411542 Similar to six transmembrane epithelial XM_231400 NM_152999 XM_284053 antigen of prostate 2; six transmembrane prostate protein; prostate cancer associated gene 1; prostate cancer associated protien 1 (LOC312052), mRNA 132 1382181_AT AI555069 Hypothetical LOC311984 (LOC311984), XM_231302 XM_373170 mRNA 133 1381971_AT AW528157 Rattus norvegicus similar to Sry-related XM_230968 NM_018419 NM_009236 HMG-box protein (LOC311723), mRNA 134 1377023_AT AI408580 Similar to dual specificity phosphatase 2 XM_230575 NM_004418 NM_010090 (LOC311406), mRNA 135 1377625_AT BF560079 Similar to CGI-09 protein (LOC311441), XM_230548 NM_015939 NM_175113 mRNA 136 1375420_AT AI170535 Similar to endoplasmic reticulum membrane XM_230296 NM_006034 XM_203859 protein with at least 3 transmembrane domains of bilaterial origin like (XB300) (LOC311209), mRNA 137 1377595_AT AI044347 Similar to mKIAA1927 protein XM_230036 NM_006751 NM_080558 (LOC311146), mRNA 138 1373000_AT AA818334 Rattus norvegicus similar to sushi-repeat XM_228444 NM_014467 NM_026838 containing protein (LOC317181), mRNA 139 1382130_AT AA997710 Similar to bA99E24.1.1 (protocadherin 19 XM_228429 XM_033173 XM_205287 (KIAA1313) protein) (LOC317183), mRNA 140 1371988_AT AA892549 Similar to Man9-mannosidase (LOC294567), XM_228364 NM_005907 NM_008548 1383574_AT AI502956 mRNA 141 1372266_AT BI281607 Similar to DNA polymerase zeta catalytic XM_228273 NM_002912 NM_011264 subunit (LOC309812), mRNA 142 1389214_AT BF406693 Similar to Lama4 protein (LOC309816), XM_228209 NM_002290 NM_010681 mRNA 143 1383131_AT AI177292 Similar to Integrin beta-2 precursor (Cell XM_228072 NM_000211 NM_008404 surface adhesion glycoproteins LFA- 1/CR3/P150,95 beta-subunit) (CD18) (Complement receptor C3 beta-subunit) (LOC309684), mRNA 144 1398397_AT AI407483 Similar to Parg1-pending protein XM_227651 NM_004815 NM_172525 (LOC310833), mRNA 145 1371924_AT BI274355 Similar to RIKEN cDNA 2810002E22 XM_227535 NM_020190 NM_133859 (LOC310743), mRNA 146 1377869_AT BI284261 Similar to carbon catabolite repression 4 XM_227134 NM_012118 NM_009834 protein homolog (LOC310395), mRNA 147 1367538_AT BF284303 LOC310258 similar to polyhomeotic 3 XM_226976 NM_024947 NM_153421 148 1384165_AT BG671473 Similar to Ras GTPase-activating-like protein XM_226696 IQGAP2 (LOC310008), mRNA 149 1376583_AT BE095847 Similar to RIKEN cDNA 6430548M08 XM_226529 XM_375377 NM_172286 (LOC307907), mRNA 150 1379322_AT BI289174 Similar to 26S proteasome non-ATPase XM_226439 NM_002811 NM_010817 regulatory subunit 7 (26S proteasome regulatory subunit S12) (Proteasome subunit p40) (Mov34 protein) (LOC307821), mRNA 151 1378282_AT BI290750 Similar to casein kinase II, alpha prime XM_226237 NM_001896 NM_009974 subunit (LOC307641), mRNA 152 1389255_AT BE110616 Similar to VE-cadherin (LOC307618), XM_226213 NM_001795 NM_009868 mRNA 153 1391503_AT BF281952 Similar to FLJ00007 protein (LOC307482), XM_225999 NM_033449 NM_175684 mRNA 154 1374266_AT AA955773 Rattus norvegicus similar to protocadherin 1 XM_225997 NM_002587 NM_029357 isoform 2 precursor; protocadherin 42; NM_032420 cadherin-like protein 1 (LOC307481), mRNA 155 1377950_AT AA955213 LOC307415: similar to interferon-inducible XM_225909 NM_021792 GTPase 156 1398664_AT C06752 Similar to RIKEN cDNA 9130427A09 XM_225748 NM_023927 NM_026240 (LOC307288), mRNA 157 1376640_AT BF285466 Similar to hypothetical protein (LOC307138), XM_225599 XM_167709 XM_194000 mRNA 158 1392648_AT BI294018 Similar to macrophage mannose receptor XM_225585 NM_002438 NM_008625 precursor (LOC291327), mRNA 159 1372028_AT AA893215 Similar to Protein CGI-117 (Protein XM_225176 NM_016391 NM_178605 HSPC111) (LOC306768), mRNA 160 1376788_AT AA818353 Rattus norvegicus similar to Dapk1 protein XM_225138 NM_004938 NM_029653 161 1388494_AT BI281705 Similar to Collagen alpha 2(IV) chain XM_225043 NM_001846 NM_009932 precursor (LOC306628), mRNA 162 1375337_AT AI011712 Similar to XM_224964 NM_003816 NM_007404 metalloprotease/disintegrin/cysteine rich protein precursor (LOC290834), mRNA 163 1373599_AT AI599525 Similar to RNA polymerase III transcription XM_224944 NM_018310 NM_025686 initiation factor BRF2 (LOC306542), mRNA 164 1386041_A_AT BF288243 Similar to Kruppel-like factor 2 (Lung XM_224722 NM_016270 NM_008452 kruppel-like factor) (LOC306330), mRNA 165 1372136_AT AA848776 Similar to tetraspanin similar to TM4SF9 XM_224699 NM_030927 NM_145928 (LOC306324), mRNA 166 1388401_AT BI296155 Similar to actin-binding protein homolog XM_224561 NM_001457 XM_127565 1391827_AT AI013675 ABP-278 (LOC306204), mRNA 167 1370905_AT BI291229 Thyroid regulating gene XM_224538 NM_015296 XM_358315 168 1384907_AT AI411835 Rattus norvegicus similar to dachshund XM_224440 NM_004392 NM_007826 variant 1 (LOC306096), mRNA NM_080759 NM_080760 169 1384415_AT AI058292 LOC290317 similar to mSox7 XM_224283 NM_031439 NM_011446 170 1394597_AT AI101356 Similar to RIKEN cDNA 4921528E07 XM_223930 NM_030637 NM_176845 (LOC305816), mRNA 171 1386721_AT BF560938 Similar to zinc-finger protein NOLZI XM_223786 NM_032772 NM_145459 (LOC305687), mRNA 172 1390112_AT BF284634 Rattus norvegicus similar to EGF-containing XM_223725 NM_004105 NM_146015 fibulin-like extracellular matrix protein 1 NM_018894 precursor (Fibulin-3) (FIBL-3) (T16 protein) (LOC305604), mRNA 173 1372776_AT BM392017 Similar to F-box and leucine-rich repeat XM_223508 NM_012161 NM_178729 protein 5 isoform 1; F-box protein FBL5 NM_033535 (LOC305424), mRNA 174 1376678_AT BF283712 Similar to Amyloid beta A4 precursor XM_223399 NM_173075 NM_009686 protein-binding family B member 2 (Fe65- like protein) (LOC305338), mRNA 175 1373751_AT BF396319 Similar to Kif21b (LOC289397), mRNA XM_223090 XM_371332 NM_019962 176 1388335_AT BI285865 Similar to transgelin 2; SM22-alpha homolog XM_222906 NM_003564 NM_178598 (LOC304983), mRNA 177 1374320_AT AI717113 coagulation factor 5 XM_222831 NM_000130 NM_007976 178 1389787_AT AI549469 similar to Putative alpha-mannosidase XM_222721 NM_025191 XM_193956 C1orf22 179 1389059_AT BI278651 Similar to Lyl-1 protein (Lymphoblastic XM_222472 NM_005583 NM_008535 leukemia derived sequence 1) (LOC304663), mRNA 180 1371632_AT AI231166 Rattus norvegicus similar to slingshot 1 XM_222275 NM_014325 NM_011779 (LOC304580), mRNA 181 1390031_AT BG378798 Similar to hypothetical protein FLJ14466 XM_222178 NM_032790 NM_175423 (LOC304496), mRNA 182 1398335_AT BI285665 Similar to tweety homolog 2 (LOC304315), XM_221962 XM_166523 NM_175274 mRNA XM_374388 183 1393460_AT BM388665 Similar to GARP protein precursor (Garpin) XM_221370 NM_198565 NM_146069 (Glycoprotein A repetitions predominant) (LOC303875), mRNA 184 1389478_AT BM392031 Similar to hypothetical protein FLJ14360 XM_221268 NM_032775 NM_145479 (LOC303792), mRNA 185 1376182_AT BM383074 Similar to fetal Alzheimer antigen isoform 2; XM_221050 NM_182641 XM_126724 bromodomain and PHD domain transcription NM_004459 factor; nucleosome remodeling factor, large subunit; fetal Alz-50 reactive clone 1 (LOC303617), mRNA 186 1372615_AT AI070137 Amine oxidase, copper containing 3 XM_220990 NM_003734 NM_009675 187 1388151_AT AI008369 tumor specific antigen 70 kDa XM_220167 NM_024535 NM_030205 188 1372164_AT AI600255 Similar to hypothetical protein FLJ20154 XM_219958 NM_017787 NM_146099 1375369_AT Z83035 (LOC309456), mRNA 189 1389227_AT BG375902 Rattus norvegicus similar to GTPase XM_218977 NM_001665 NM_019566 (LOC308875), 190 1381305_AT BM383011 Similar to RIKEN cDNA 4931406P16 XM_218503 NM_014686 NM_172741 (LOC308509), mRNA 191 1372769_AT AI105290 Rattus norvegicus similar to Lgtn protein XM_218452 NM_006893 NM_010709 (LOC308432), mRNA 192 1376858_AT BI281836 Similar to Exocyst complex component Sec6 XM_218421 NM_138568 XM_358663 (rSec6) (LOC308412), mRNA 193 1372593_AT AI137283 Rattus norvegicus transcribed sequence with XM_218292 NM_016325 NM_022981 moderate similarity to protein NM_016324 ref: NP_057409.1 (H. sapiens) zinc finger NM_133502 protein 274, isoform a; KRAB zinc finger protein HFB101; zinc finger protein zfp2 [Homo sapiens] 194 1397272_AT BI297130 Similar to KIF13A (LOC308173), mRNA XM_217893 NM_022113 NM_010617 195 1371525_AT BI277550 Rattus norvegicus similar to putative XM_217744 NM_006598 NM_011390 potassium-chloride cotransporter-4; KCC4 (LOC308069), mRNA 196 1390415_AT BM392319 Similar to thyroid hormone receptor XM_217741 NM_004237 XM_127444 interactor 13; thyroid receptor interacting protein 13 (LOC292206), mRNA 197 1383201_AT BI289300 LOC301443 similar to Bone morphogenetic XM_217409 NM_001204 NM_007561 protein type II receptor NM_033346 198 1372251_AT BI282892 Similar to RNA binding motif protein 5 XM_217263 NM_005778 NM_148930 (LOC300996), mRNA 199 1373222_AT AI230271 Rattus norvegicus Hexose aminidase A XM_217144 NM_000520 NM_010421 (alpha polypeptide) (Hexa), mRNA 200 1388495_AT BI303583 Similar to HPI alpha protein (LOC300266), XM_217062 NM_012117 NM_007626 mRNA 201 1371360_AT BM384099 Rattus norvegicus similar to cytoplasmic XM_216923 NM_006096 NM_010884 1391458_AT BE120446 protein Ndr1 (LOC299923), mRNA 202 1388695_AT BF285150 Similar to serine hydroxymethyl transferase 2 XM_216909 NM_005412 NM_028230 (mitochondrial) (LOC299857), mRNA 203 1371894_AT AI409037 Similar to N-acetylglucosamine-6-sulfatase XM_216899 NM_002076 NM_029364 1395265_AT BF419323 precursor (G6S) (Glucosamine-6-sulfatase) (LOC299825), mRNA 204 1398962_AT BM388453 Similar to cDNA sequence BC005632 XM_216853 NM_031213 NM_145421 (LOC299617), mRNA 205 1388773_AT BI278479 Similar to Tnfaip2 protein (LOC299340), XM_216786 NM_006291 NM_009396 mRNA 206 1389617_AT BM392135 Similar to NimA-related protein kinase XM_216755 NM_033116 NM_145138 (LOC299204), mRNA 207 1372835_AT BM389644 Similar to ras homolog gene family, member XM_216737 NM_020663 NM_023275 J; TC10-like Rho GTPase (LOC299145), mRNA 208 1383662_AT AI043759 Similar to angiopoietin-related protein 5 XM_216613 NM_031917 NM_145154 (LOC298698), mRNA 209 1371487_AT BG666075 Similar to SH3 domain binding glutamic XM_216547 NM_031286 NM_080559 acid-rich protein-like 3 (LOC298544), mRNA 210 1388397_AT BI281160 EBNA1 binding protein 2 XM_216516 NM_006824 NM_026932 211 1382680_AT BG673602 Adipose differentiation-related protein XM_216438 NM_001122 NM_007408 1390383_AT BI285616 212 1379345_AT BM386752 Rattus norvegicus similar to type XV XM_216399 NM_001855 NM_009928 collagen (LOC298069), mRNA 213 1393706_AT BE109939 Similar to six transmembrane epithelial XM_216315 NM_012449 NM_027399 antigen of the prostate (LOC297738), mRNA 214 1371641_AT BM388827 Rattus norvegicus similar to CCTeta, eta XM_216180 NM_006429 NM_007638 subunit of the chaperonin containing TCP-1 (CCT) (LOC297406), mRNA 215 1388715_AT AA818089 Rattus norvegicus similar to Glycyl-tRNA XM_216152 NM_002047 NM_180678 1395730_AT AW507352 synthetase (LOC297113), mRNA 216 1371691_AT BI282993 Similar to CHO functionally unknown type II XM_216142 NM_002889 NM_027852 transmembrane protein (LOC297073), mRNA 217 1373590_AT BI295949 Similar to erthyrocyte band 7 integral XM_216045 NM_004099 NM_013515 membrane protein, protein 7.2B, stomatin NM_198194 (LOC296655), mRNA 218 1383240_AT BE110753 Integrin, alpha 6 XM_215984 NM_000210 NM_008397 219 1391435_AT BI278687 Similar to phospholipid transfer protein XM_215939 NM_006227 NM_011125 (LOC296371), mRNA NM_182676 220 1371507_AT BM384151 Similar to 4921517L17Rik protein XM_215902 NM_080834 XM_130609 (LOC296311), mRNA 221 1373615_AT BM391538 Rattus norvegicus similar to frezzled XM_215757 NM_001463 NM_011356 (LOC295691), mRNA 222 1377369_AT BF419070 Rattus norvegicus similar to duodenal XM_215749 NM_024843 XM_130253 cytochrome b (LOC295669), mRNA 223 1374061_AT BF282054 Similar to RIKEN cDNA 1110055L24 XM_215741 NM_014880 NM_025422 (LOC295629), mRNA 224 1372587_AT AI172271 Rattus norvegicus similar to endomucin-1 XM_215710 NM_016242 NM_016885 (LOC295490), mRNA 225 1372613_AT AI232784 Rattus norvegicus similar to RIKEN cDNA XM_215705 NM_020139 NM_027208 1810026B04 (LOC295458), mRNA 226 1373847_AT AW435343 Rattus norvegicus similar to L6 antigen XM_215576 NM_014220 NM_008536 (LOC295061), mRNA 227 1378305_AT AI578087 Similar to L6 antigen (LOC295061), mRNA XM_215576 NM_014220 NM_008536 228 1389476_AT AI010238 Similar to RIKEN cDNA D630029K19 XM_215551 XM_371706 NM_172680 (LOC294978), mRNA 229 1388119_AT BM392140 Rattus norvegicus transcribed sequence with XM_215530 NM_015716 NM_016713 moderate similarity to protein ref: NP_056531.1 (H. sapiens) Misshapen/NIK-related kinase [Homo sapiens] 230 1398970_AT BI303004 Similar to Ab2-292 (LOC294912), mRNA XM_215528 NM_003262 NM_027016 231 1376570_AT BF417274 Chaperonin containing TCP1, subunit 5 XM_215516 NM_012073 NM_007637 (epsilon) 232 1395508_AT BG665309 Chaperonin containing TCP1, subunit 5 XM_215516 NM_012073 NM_007637 (epsilon) 233 1388155_AT BI286012 similar to cytokeratin (LOC294853) XM_215513 NM_000224 NM_010664 NM_199187 234 1371926_AT AI171807 Interleukin 6 signal transducer XM_215483 NM_002184 NM_010560 NM_175767 235 1373363_AT BI281702 similar to Microtubule-associated protein 1b XM_215469 NM_005909 NM_008634 1395357_AT BG672052 NM_032010 236 1388054_A_AT AF072892 chondroitin sulfate proteoglycan 2 (versican) XM_215451 NM_004385 NM_019389 1371232_A_AT AF084544 237 1371349_AT AI598402 Rattus norvegicus similar to collagen alpha1 XM_215375 NM_001848 NM_009933 type VI-precursor (LOC294337), mRNA 238 1382008_AT AI044348 Similar to hypothetical protein FLJ11218 XM_215279 NM_018363 (LOC294098), mRNA 239 1390406_AT AI232065 Similar to Arhgap18 protein (LOC293947), XM_215247 NM_033515 NM_176837 1390420_AT AI577849 mRNA 240 1374034_AT BG379410 Similar to cysteine-tRNA ligase isoform b; XM_215134 NM_139273 NM_013742 1376754_AT AI176610 cysteine translase; cysteine-tRNA synthetase NM_001751 (LOC293638), mRNA 241 1397674_AT AI502930 Similar to RIKEN cDNA 3230401O13 XM_215080 NM_003752 NM_146200 (LOC293484), mRNA 242 1380688_AT BI283107 Hypothetical LOC293181 (LOC293181), XM_215017 NM_198516 NM_173739 mRNA 243 1388970_AT AA848597 Similar to hypothetical protein FLJ20401 XM_214916 NM_017805 NM_027253 (LOC292912), mRNA 244 1398873_AT BI279608 heterogeneous nuclear ribonucleoprotein L XM_214878 NM_001533 NM_177301 245 1371341_AT BG372885 Rattus norvegicus similar to Small nuclear XM_214847 NM_004597 XM_133225 ribonucleoprotein Sm D2 (snRNP core NM_177542 protein D2) (Sm-D2) (LOC309893), mRNA 246 1375657_AT BE107438 similar to 4933407C03Rik protein XM_214698 NM_030629 BC028834 (LOC292051) NM_198390 247 1371246_AT BE109988 Rattus norvegicus similar to Nuclear XM_214670 NM_005796 NM_026532 transport factor 2 (NTF-2) (Placental protein 15) (PP15) (LOC291981), mRNA 248 1398356_AT BF420718 Rattus norvegicus similar to cleavage and XM_214640 NM_007006 NM_026623 polyadenylation specific factor 5; cleavage and polyadenylation specific factor 5, 25 kD subunit (LOC291877), mRNA 249 1383073_AT BG666028 Similar to ubiquitin specific protease 14 XM_214624 NM_005151 NM_021522 (LOC291796), mRNA 250 1388170_AT BI285710 vitamin A-deficient testicular protein 5 XM_214617 NM_198991 251 1374479_AT BM390240 Similar to RIKEN cDNA D030070L09 XM_214605 NM_194281 NM_172625 (LOC291737), 252 1374118_AT AA944176 Rattus norvegicus similar to leucyl-tRNA XM_214566 NM_020117 synthetase (LOC291624), mRNA 253 1398893_AT BG671512 Similar to Nedd4 WW domain-binding XM_214564 NM_030571 XM_128893 protein 5 (LOC291609), mRNA 254 1378134_AT BI291629 similar to ATPase, Class I, type 8B, member 1 XM_214553 NM_005603 NM_001001488 255 1375267_AT BI291292 Rattus norvegicus similar to Chain A, XM_214534 NM_000943 NM_008908 Cyclophilin C Complexed With Cyclosporin A (LOC291463), mRNA 256 1393210_AT AI070116 Similar to Extracellular matrix protein 2 XM_214443 NM_001393 precursor (Matrix glycoprotein SC1/ECM2) (LOC291018), mRNA 257 1372439_AT AI176393 similar to collagen alpha 1(IV) chain XM_214400 NM_001845 NM_009931 1373245_AT BE111752 precursor 258 1389103_AT BM391005 Similar to RIKEN cDNA 2810037C03 XM_214380 NM_032336 NM_024240 (LOC290842), mRNA 259 1372919_AT AA851904 Similar to Putative lysophosphatidic acid XM_214379 NM_178819 NM_018743 acyltransferase (LOC290843), mRNA 260 1372050_AT BI279577 Similar to hypothetical protein MGC38524 XM_214295 NM_024656 NM_146211 (LOC290637), mRNA 261 1374247_AT BI279869 Similar to stabilin-1 (LOC290559), mRNA XM_214279 NM_015136 NM_138672 262 1371849_AT BI285551 Similar to hypothetical protein FLJ12442 XM_214258 NM_022908 XM_354801 (LOC290558), mRNA 263 1371320_AT BF282337 Rattus norvegicus similar to E25B protein XM_214228 NM_021999 NM_008410 (LOC290364), mRNA 264 1380474_AT AI013470 Similar to Lysyl oxidase homolog 2 precursor XM_214225 NM_002318 NM_033325 1391450_AT AI044651 (Lysyl oxidase-like protein 2) (Lysyl oxidase related protein 2) (Lysyl oxidase-related protein WS9-14) (LOC290350), mRNA 265 1373346_AT AI009492 Similar to hypothetical protein CL25084 XM_214121 NM_015701 NM_025745 (LOC289874), mRNA 266 1375424_AT BE107525 Similar to actin-related protein 2 XM_214109 NM_005722 NM_146243 1398626_S_AT AW920881 (LOC289820) 267 1383824_AT AI029445 Similar to LIM domain binding 2; LIM XM_214054 NM_001290 NM_010698 binding domain 2; LIM domain-binding factor-2 (LOC289664), mRNA 268 1398994_AT BI301193 Similar to tyrosylprotein sulfotransferase-2; XM_213800 NM_003595 NM_009419 TPST-2 (LOC288719), mRNA 269 1371498_AT AI412685 Rattus norvegicus similar to Jtv1-pending XM_213710 NM_006303 NM_146165 protein (LOC288480), mRNA 270 1377390_AT BG381587 Similar to beta-site APP-cleaving enzyme 2 XM_213642 NM_012105 NM_019517 isoform A preproprotein; beta secretase 2; NM_138992 aspartyl protease 1; membrane-associated NM_138991 aspartic protease 1; memapsin-1; Down syndrome region aspartic protease; 56 kDa aspartic-like protease; 271 1389040_AT AI170825 Similar to PEST-containing nuclear protein XM_213636 NM_020357 XM_132579 (LOC288165), mRNA XM_358858 272 1371541_AT AI177055 Rattus norvegicus similar to Mylk protein XM_213611 NM_005965 NM_139300 (LOC288057), mRNA NM_053025 NM_053026 NM_053027 NM_053028 NM_053029 NM_053030 NM_053031 NM_053032 273 1389123_AT BE095824 Similar to Small inducible cytokine A6 XM_213553 NM_004166 NM_009139 precursor (CCL6) (C10 protein) NM_032962 (LOC287910), mRNA NM_032963 274 1374897_AT AI406842 Similar to ALY (LOC287878), mRNA XM_213542 NM_005782 NM_011568 275 1371790_AT BI277658 Similar to mitochondrial ribosomal protein XM_213446 NM_032351 NM_025927 L45 (LOC287656), mRNA 276 1379935_AT BF419899 Similar to Small inducible cytokine A7 XM_213419 NM_013654 precursor (CCL7) (Monocyte chemotactic protein 3) (MCP-3) (Monocyte chemoattractant protein 3) (LOC287561), mRNA 277 1371329_AT BI283681 Rattus norvegicus similar to Eukaryotic XM_213368 NM_001970 NM_181582 translation initiation factor 5A (eIF-5A) (eIF- 4D) (Rev-binding factor) (LOC363547), mRNA 278 1375368_AT BF420654 Similar to RIKEN cDNA 1700012G19 gene XM_213235 XM_208887 NM_025954 (LOC287115), mRNA 279 1389470_AT AI639117 B-factor, properdin NM_212466 NM_001710 NM_008198 280 1371392_AT BI283882 Rattus norvegicus glucose phosphate NM_207592 NM_000175 NM_008155 isomerase 281 1372068_AT BI289543 BS69 protein NM_203366 NM_006624 NM_144516 NM_203367 NM_212479 NM_203368 NM_203369 282 1388699_AT BE114558 Similar to mannosidase 2, alpha B1 NM_199404 NM_000528 NM_010764 283 1372254_AT AW915763 serine (or cysteine) proteinase inhibitor, clade NM_199093 NM_000062 NM_009776 G (C1 inhibitor), member 1, (angioedema, hereditary) 284 1388878_AT BI279756 LOC291996: Nin one binding protein NM_199086 NM_014062 NM_026277 285 1392280_AT AW526982 toll-like receptor 2 variant 1 NM_198769 NM_003264 NM_011905 286 1394483_AT AW535310 A disintegrin-like and metalloprotease NM_198761 NM_007038 NM_011782 (reprolysin type) with thrombospondin type 1 motif, 5 (aggrecanase-2) 287 1390738_AT BM385476 DAMP-1 protein NM_198134 NM_004335 NM_198095 288 1388889_AT AI598417 Putative aminopeptidase Fxna NM_184050 NM_024896 XM_358328 XM_291315 289 1384183_AT AA996869 Myosin VIIA and Rab interacting protein NM_182844 NM_015460 NM_144557 290 1384392_AT BF397093 cytochrome P450, family 26, subfamily b, NM_181087 NM_019885 NM_175475 polypeptide 1 291 1389207_AT BI282122 EGL nine homolog 1 (C. elegans) NM_178334 NM_022051 NM_053207 292 1382431_AT AI103530 ATP-binding cassette, sub-family A (ABC1), NM_178095 NM_005502 NM_013454 1384381_AT BF284523 member 1 1394490_AT AI502114 293 1388218_AT X13722 low density lipoprotein receptor NM_175762 NM_000527 NM_010700 294 1371079_AT X73371 low affinity immunoglobulin gamma FC NM_175756 NM_004001 NM_010187 region receptor II precursor 295 1398332_AT BM386294 Protein phosphatase 1F (PP2C domain NM_175755 NM_014634 NM_176833 containing) 296 1370442_AT U25684 thymosin beta-like protein NM_173313 NM_194324 NM_207267 NM_021992 297 1370408_AT AF313411 putative small membrane protein NID67 NM_173126 NM_032947 NM_134133 298 1398303_S_AT BI295970 tropomyosin isoform 6 NM_173111 NM_152263 XM_355057 NM_153649 NM_022314 299 1370290_AT AB011679 tubulin, beta 5 NM_173102 NM_178014 NM_011655 1387892_AT BI285440 300 1398857_AT AF182952 Surfeit 1 NM_172068 NM_003172 NM_013677 301 1370312_AT M88469 f-spondin NM_172067 NM_006108 NM_145584 302 1370954_AT BI274401 prolyl 4-hydroxylase alpha subunit NM_172062 NM_000917 NM_011030 303 1370845_AT BI288690 ectonucleoside triphosphate NM_172030 NM_203468 NM_009849 diphosphohydrolase 2 NM_001246 304 1375074_AT BE113756 ProSAPiP2 protein NM_172021 XM_375469 NM_198100 305 1370838_S_AT BM387423 alpha-spectrin 2 NM_171983 NM_003127 XM_355324 306 1392489_AT BE108956 Prrx1 paired related homeobox 1 NM_153821 NM_006902 NM_011127 NM_022716 307 1371600_AT AA943815 protein kinase inhibitor, gamma NM_153469 NM_181805 NM_011106 NM_007066 NM_181804 308 1383469_AT BG377269 Aldehyde dehydrogenase family 1, subfamily NM_153300 NM_000693 NM_053080 A3 309 1388711_AT BF282650 Interleukin 13 receptor, alpha 1 NM_145789 NM_001560 NM_133990 310 1370809_AT AB015946 tubulin, gamma 1 NM_145778 NM_001070 NM_134024 311 1380617_AT BI294743 immune associated nucleotide 4 like 1 NM_145680 NM_018384 NM_175035 (mouse) 312 1370570_AT AF016296 neuropilin NM_145098 NM_003873 NM_008737 313 1370828_AT AF228917 zinc finger, DHHC domain containing 2 NM_145096 NM_016353 NM_178395 314 1374399_AT AA801107 pincher NM_139324 NM_139265 NM_133838 1375739_AT BF395171 315 1371618_S_AT AI229029 tubulin, beta 3 NM_139254 NM_006086 NM_023279 316 1370854_AT AA799423 LOC246172: Nexilin NM_139230 NM_144573 NM_199465 NM_139231 317 1393427_S_AT BF287675 LOC245963: Estrogen-regulated protein NM_139104 NM_016215 NM_178444 CBL20, 20.4 kD NM_201446 NM_198724 NM_198725 318 1370950_AT AW253995 ER transmembrane protein Dri 42 NM_138905 NM_003713 NM_080555 1372101_AT AI177031 NM_177414 319 1387893_AT D88250 complement component 1, s subcomponent NM_138900 NM_001734 NM_173864 NM_201442 320 1391442_AT AA957585 EH-domain containing 3 NM_138890 NM_014600 NM_020578 321 1369425_AT AF494095 cadherin 13 NM_138889 NM_001257 NM_019707 1375719_S_AT BG381748 322 1369422_AT AF493782 fibroblast activation protein NM_138850 NM_004460 NM_007986 323 1369895_S_AT AF109393 podocalyxin-like NM_138848 NM_005397 NM_013723 324 1381996_AT BG666712 glycoprotein m6b NM_138846 NM_005278 NM_023122 325 1370862_AT J02582 apolipoprotein E NM_138828 NM_000041 NM_009696 326 1390311_AT AW528602 Tubulin tyrosine ligase NM_138536 NM_153712 NM_027192 327 1389297_AT AI146215 ERO1-like (S. cerevisiae) (Ero11), NM_138528 NM_014584 NM_015774 328 1370633_AT D87927 cytokine-induced neutrophil chemoattractant-2 NM_138522 ****** NM_203320 1370634_X_AT ******* NM_001511 ****** 1388032_A_AT NM_053647 NM_002090 NM_009140 329 1370328_AT AF245040 dickkopf homolog 3 (Xenopus laevis) NM_138519 NM_013253 NM_015814 NM_015881 330 1387896_AT M62763 sterol carrier protein 2 NM_138508 NM_002979 NM_011327 331 1368200_AT AF030358 chemokine (C—X3—C motif) ligand 1 NM_134455 NM_002996 NM_009142 332 1369955_AT AF272662 Collagen, type V, alpha 1 NM_134452 NM_000093 NM_015734 1376099_AT AW254017 333 1387630_AT AB071985 fatty acid elongase 1 NM_134382 NM_021814 NM_134255 1388348_AT BI278590 334 1368771_AT AF230072 sulfatase FP NM_134378 NM_015170 NM_172294 1373062_AT BM388650 335 1368332_AT M80367 guanylate binding protein 2, interferon- NM_133624 XM_375746 NM_010260 inducible 336 1388534_AT AA851369 Solute carrier family 31 (copper transporters), NM_133600 NM_001859 NM_175090 member 1 337 1389157_AT BI275583 Lectin, galactoside-binding, soluble, 2 NM_133599 NM_006498 NM_025622 (galectin 2) 338 1367716_AT AF480856 hypothetical protein CDA08 NM_133557 NM_030790 NM_028007 339 1377671_AT BI279816 Csf2rb1: colony stimulating factor 2 receptor, NM_133555 NM_000395 NM_007780 beta 1, low-affinity (granulocyte- macrophage) 340 1368052_AT Y13275 transmembrane 4 superfamily member 3 NM_133526 NM_004616 NM_146010 341 1368657_AT X02601 matrix metalloproteinase 3 NM_133523 NM_002422 NM_010809 342 1387789_AT AB031088 v-ets erythroblastosis virus E26 oncogene NM_133397 NM_182918 NM_133659 like (avian) NM_004449 343 1387870_AT AB025017 zinc finger protein 36 NM_133290 NM_003407 NM_011756 344 1383785_AT BE115061 Lymphoid enhancer binding factor 1 NM_130429 NM_016269 NM_010703 345 1370613_S_AT AF461738 UDP glycosyltransferase 1 family, NM_130407 NM_001072 NM_145079 polypeptide A7 NM_205862 346 1370062_AT AY062253 hypoxia induced gene 1 NM_080902 XM_374981 NM_019814 347 1367786_AT D10729 proteosome (prosome, macropain) subunit, NM_080767 NM_004159 NM_010724 beta type 8 NM_148919 348 1373957_AT BF281544 reelin NM_080394 NM_005045 NM_011261 NM_173054 349 1372727_AT BM384088 Rattus norvegicus cytokine inducible SH2- NM_058208 NM_003877 NM_007706 containing protein 2 350 1387759_S_AT J02612 UDP glycosyltransferase 1 family, NM_057105 NM_001072 NM_145079 polypeptide A6 NM_205862 351 1369735_AT D42148 Growth arrest specific 6 NM_057100 NM_000820 NM_019521 1392784_AT BF555051 352 1387294_AT AB027562 SH3-domain binding protein 5 (BTK- NM_054011 NM_004844 NM_011894 associated) 353 1370048_AT AF014418 endothelial differentiation, lysophosphatidic NM_053936 NM_001401 NM_010336 acid G-protein-coupled receptor, 2 NM_057159 354 1368097_A_AT U17604 reticulon 1 NM_053865 NM_021136 NM_153457 NM_206852 NM_206857 355 1370007_AT M86870 protein disulfide isomerase related protein NM_053849 NM_004911 (calcium-binding protein, intestinal-related) 356 1367850_AT M64370 Fc receptor, IgG, low affinity III NM_053843 NM_021642 NM_010188 1398246_S_AT 357 1398765_AT M23674 adaptor-related protein complex 2, mu 1 NM_053837 NM_004068 NM_009679 subunit 358 1367807_AT L25331 procollagen-lysine, 2-oxoglutarate 5- NM_053827 NM_000302 NM_011122 dioxygenase (lysine hydroxylase, Ehlers- Danlos syndrome type VI) 359 1368079_AT L22294 pyruvate dehydrogenase kinase 1 NM_053826 NM_002610 NM_172665 360 1387001_AT L19699 v-ral simian leukemia viral oncogene NM_053821 NM_002881 NM_022327 homolog B 361 1387976_AT AF294257 solute carrier family 9 (sodium/hydrogen NM_053811 NM_004785 NM_023055 exchanger), isoform 3 regulator 2 NM_023449 362 1387279_AT AF276998 junctional adhesion molecule 1 NM_053796 NM_016946 NM_172647 NM_144501 NM_144502 NM_144503 NM_144504 363 1369956_AT AF201901 interferon gamma receptor NM_053783 NM_000416 NM_010511 364 1387018_AT AF026505 Arg/Abl-interacting protein ArgBP2 NM_053770 NM_003603 NM_172752 NM_021069 365 1367453_AT D26564 cell division cycle 37 homolog (S. cerevisiae) NM_053743 NM_007065 NM_016742 366 1372638_AT BG371454 PAK-interacting exchange factor beta NM_053740 NM_003899 NM_017402 NM_145735 367 1393883_AT AI556852 Rattus norvegicus fms-related tyrosine kinase NM_053652 NM_182925 NM_008029 NM_002020 368 1387306_A_AT AB032420 early growth response 2 NM_053633 NM_000399 NM_010118 369 1387282_AT AF314540 crystallin, alpha C NM_053612 NM_014365 NM_030704 370 1372844_AT AW531877 ephrin A1 NM_053599 NM_004428 NM_010107 NM_182685 371 1367801_AT D29683 endothelin converting enzyme 1 NM_053596 NM_001397 NM_199307 372 1369950_AT L11007 cyclin-dependent kinase 4 NM_053593 NM_000075 NM_009870 373 1368281_AT L07316 dipeptidase 1 NM_053591 NM_004413 NM_007876 374 1387125_AT L18948 S100 calcium-binding protein A9 NM_053587 NM_002965 NM_009114 (calgranulin B) 375 1398833_AT AF094821 membrane-bound transcription factor NM_053569 NM_003791 NM_019709 protease, site 1 NM_201268 376 1398840_AT AF054826 vesicle-associated membrane protein 5 NM_053555 NM_006634 NM_016872 377 1368103_AT AJ303374 ATP-binding cassette, sub-family G NM_053502 NM_004915 NM_009593 (WHITE), member 1 NM_016818 378 1367661_AT AF140232 calcium binding protein A6 (calcyclin) NM_053485 NM_014624 NM_011313 379 1370963_AT AJ131902 growth arrest specific 7 NM_053484 NM_003644 NM_008088 NM_201432 NM_201433 380 1383516_AT BG663284 Fibrinogen-like 2 NM_053455 NM_006682 NM_008013 381 1367590_AT AF306457 RAN, member RAS oncogene family NM_053439 NM_006325 NM_009391 382 1387805_AT AF243515 BCL2/adenovirus E1B 19 kDa-interacting NM_053420 NM_004052 NM_009760 protein 3, nuclear gene for mitochondrial product 383 1368393_AT AF160978 Lymphocyte antigen 68 NM_053383 NM_012072 NM_010740 1376574_AT BI282932 384 1367998_AT AF151982 secretory leukocyte protease inhibitor NM_053372 NM_003064 NM_011414 385 1367940_AT AF118816 chemokine orphan receptor 1 NM_053352 NM_020311 NM_007722 386 1370624_AT AF310076 coagulation factor II (thrombin) receptor-like 2 NM_053313 NM_004101 NM_010170 387 1369621_S_AT U69485 FK506 binding protein 2 NM_053308 NM_004116 NM_008019 NM_054033 388 1369931_AT X15800 pyruvate kinase, muscle NM_053297 NM_002654 NM_011099 NM_182470 NM_182471 389 1373466_AT AA946474 Calpastatin NM_053295 NM_001750 NM_009817 NM_173060 NM_173061 NM_173062 390 1388318_AT BI279760 Phosphoglycerate kinase 1 NM_053291 NM_000291 NM_008828 391 1386864_AT M76591 phosphoglycerate mutase 1 NM_053290 NM_002629 NM_023418 392 1368731_AT J00696 orosomucoid 1 NM_053288 NM_000607 NM_011016 393 1367784_A_AT AF314657 clusterin NM_053021 NM_001831 NM_013492 NM_203339 394 1387885_AT BE110597 Fc receptor, IgG, alpha chain transporter NM_033351 NM_004107 NM_010189 395 1367722_AT AB048711 dipeptidylpeptidase 7 NM_031973 NM_013379 NM_031843 396 1368106_AT AF136583 serum-inducible kinase NM_031821 NM_006622 NM_152804 397 1387197_AT AF104362 osteomodulin (osteoadherin) NM_031817 NM_005014 NM_012050 398 1387975_AT AF047707 UDP-glucose:ceramide glycosyltransferase NM_031795 NM_003358 NM_011673 399 1375951_AT AA818521 Thrombomodulin NM_031771 NM_000361 NM_009378 400 1370221_AT BF419320 WNT1 inducible signaling pathway protein 1 NM_031716 NM_003882 NM_018865 1384051_AT BF390066 NM_080838 401 1369313_AT AB008571 four and a half LIM domains 2 NM_031677 NM_001450 NM_010212 1371951_AT AA800031 NM_201555 NM_201556 NM_201557 402 1383247_A_AT BI291029 MYB binding protein 1a NM_031668 NM_014520 NM_016776 1393282_AT AA942816 403 1370051_AT M57263 transglutaminase 1 NM_031659 NM_000359 NM_019984 404 1393987_S_AT BI274742 G protein-coupled receptor kinase 6 NM_031657 NM_002082 NM_011938 405 1369960_AT U72246 FXYD domain-containing ion transport NM_031648 NM_005031 NM_019503 regulator 1 NM_021902 NM_052991 NM_052992 NM_194321 406 1367701_AT AB042888 receptor (calcitonin) activity modifying NM_031646 NM_005854 NM_019444 protein 2 407 1367760_AT D13341 mitogen activated protein kinase kinase 1 NM_031643 NM_002755 NM_008927 408 1398851_AT AA892351 tyrosine 3-monooxygenase/tryptophan 5- NM_031603 NM_006761 NM_009536 monooxygenase activation protein, epsilon polypeptide 409 1369484_AT AF259981 WNT1 inducible signaling pathway protein 2 NM_031590 NM_003881 NM_016873 410 1369947_AT AF010306 cathepsin K NM_031560 NM_000396 NM_007802 411 1393281_AT AW915173 caveolin NM_031556 NM_001753 NM_007616 1372111_AT BI285449 412 1367973_AT AF058786 small inducible cytokine A2 NM_031530 NM_005408 NM_011333 413 1370642_S_AT BM389426 Rattus norvegicus transcribed sequences NM_031525 NM_002609 NM_008809 414 1380110_AT AI229643 Janus kinase 2 NM_031514 NM_004972 NM_008413 415 1398256_AT M98820 interleukin 1 beta NM_031512 NM_000576 NM_008361 416 1367774_AT AF111160 glutathione S-transferase, alpha 1 NM_031509 NM_000846 NM_008182 NM_153699 NM_010356 NM_000847 417 1370892_AT BI285347 complement component 4a NM_031504 NM_007293 NM_009780 NM_000592 418 1379772_AT BG371624 Angiotensin receptor-like 1 (Agtrl1) NM_031349 NM_005161 NM_011784 419 1387808_AT AF200684 solute carrier family 7 (cationic amino acid NM_031341 NM_003982 NM_011405 transporter, y + system), member 7 420 1387259_AT AF097593 cadherin 2 NM_031333 NM_001792 NM_007664 421 1370309_A_AT AJ238854 heterogeneous nuclear ribonucleoprotein A/B NM_031330 NM_031266 NM_010448 NM_004499 422 1367574_AT X62952 vimentin NM_031140 NM_003380 NM_011701 423 1372466_AT AI408571 transforming growth factor, beta receptor II NM_031132 NM_003242 NM_009371 NM_029575 424 1388836_AT AA799981 Protein kinase C-eta NM_031085 NM_006255 NM_008856 425 1368089_AT U21101 cyclic GMP stimulated phosphodiesterase NM_031079 NM_002599 XM_133606 426 1387344_AT AI407458 methylmalonate semialdehyde dehydrogenase NM_031057 NM_005589 NM_134042 gene 427 1369166_AT U36476 matrix metalloproteinase 9 (gelatinase B, 92-kDa NM_031055 NM_004994 NM_013599 1398275_AT U24441 type IV collagenase) 428 1370301_AT U65656 matrix metalloproteinase 2 (72 KDa type IV NM_031054 NM_004530 NM_008610 collagenase) 429 1367749_AT X84039 lumican NM_031050 NM_002345 NM_008524 430 1367627_AT U07971 glycine amidinotransferase (L- NM_031031 NM_001482 NM_025961 arginine:glycine amidinotransferase) 431 1368404_AT X59267 drebrin 1 NM_031024 NM_004395 NM_019813 NM_080881 432 1386938_AT M25073 alanyl (membrane) aminopeptidase NM_031012 NM_001150 NM_008486 433 1367732_AT U34958 guanine nucleotide binding protein, beta 1 NM_030987 NM_002074 NM_008142 434 1371575_AT BF281185 moesin NM_030863 NM_002444 NM_010833 435 1367682_AT AF315950 midkine NM_030859 NM_002391 NM_010784 436 1369294_AT D49955 bone marrow stromal cell antigen 1 NM_030848 NM_004334 NM_009763 437 1367914_AT Y10889 epithelial membrane protein 3 NM_030847 NM_001425 NM_010129 438 1368223_AT AF149118 a disintegrin and metalloproteinase with NM_024400 NM_006988 NM_009621 thrombospondin motifs 1 (ADAMTS-1) 439 1387270_AT D86383 hematopoietically expressed homeobox NM_024385 NM_002729 NM_008245 440 1369269_AT U35890 Polypeptide GalNAc transferase T1 NM_024373 NM_020474 NM_013814 1399045_AT AI236745 441 1387076_AT AF057308 hypoxia inducible factor 1, alpha subunit NM_024359 NM_001530 NM_010431 NM_181054 442 1372031_AT AI407821 Disabled homolog 2, mitogen-responsive NM_024159 NM_001343 NM_023118 phosphoprotein (Drosophila) 443 1387817_AT V01543 brain specific mRNA b NM_024128 NM_014392 NM_010942 444 1369703_AT AJ277828 Endothelial PAS domain protein 1 NM_023090 NM_001430 NM_010137 1398333_AT AI598434 445 1368078_AT U80818 endothelial cell-specific molecule 1 NM_022604 NM_007036 NM_023612 446 1367646_AT X82396 cathepsin B NM_022597 NM_001908 NM_007798 NM_147780 447 1368885_AT AI009808 ectonucleoside triphosphate NM_022587 NM_001776 NM_009848 diphosphohydrolase 1 448 1369958_AT M74295 rhoB gene NM_022542 NM_004040 NM_007483 449 1369961_AT U90556 phosphatidate phosphohydrolase type 2a NM_022538 NM_003711 NM_008247 NM_176895 NM_008903 450 1367765_AT AF054810 transcobalamin II precursor NM_022534 NM_000355 NM_015749 451 1369926_AT D00680 glutathione peroxidase 3 NM_022525 NM_002084 NM_008161 452 1367902_AT AF257110 guanine nucleotide binding protein gamma NM_022396 NM_004126 NM_025331 subunit 11 453 1368464_AT J05495 macrophage galactose N-acetyl- NM_022393 NM_010796 galactosamine specific lectin 454 1367671_AT Y00047 proliferating cell nuclear antigen NM_022381 NM_002592 NM_011045 NM_182649 455 1398350_AT BG380454 Brain acidic membrane protein NM_022300 NM_006317 456 1387547_A_AT AF192401 ETL protein NM_022294 XM_371262 NM_133222 457 1383328_X_AT AI576297 programmed cell death 4 NM_022265 NM_014456 NM_011050 NM_145341 458 1381470_AT AI454052 C-kit receptor tyrosine kinase NM_022264 NM_000222 NM_021099 1386540_AT BG666051 459 1387160_AT AJ271742 mink-related peptide 2 NM_022235 NM_005472 NM_020574 460 1370073_AT AB017702 protein kinase inhibitor p58 NM_022232 NM_006260 NM_008929 461 1368430_AT AF154349 protease, cysteine, 1 (legumain) NM_022226 NM_005606 NM_011175 462 1387648_AT U90448 CXC chemokine LIX NM_022214 NM_002993 NM_009141 NM_002994 463 1393799_AT BI303989 transmembrane receptor Unc5H2 NM_022207 NM_170744 NM_029770 464 1370097_A_AT U54791 Chemokine receptor (LCR1) NM_022205 NM_003467 NM_009911 1373661_A_AT AA945737 1389244_X_AT 465 1369633_AT AI171777 chemokine (C—X—C motif) ligand 12 NM_022177 NM_199168 NM_021704 1388583_AT BF283398 NM_000609 NM_013655 466 1370248_AT AA851939 FXYD domain-containing ion transport NM_022005 NM_022003 NM_022004 regulator 6 467 1375144_AT BM388843 tissue inhibitor of metalloproteinase 2 NM_021989 NM_003255 NM_011594 1386940_AT S72594 1367823_AT BF523128 1389836_A_AT AI599265 1388312_AT BI274487 468 1371166_AT AJ011116 nitric oxide synthase 3, endothelial cell NM_021838 NM_000603 NM_008713 469 1367619_AT U63315 progesterone receptor membrane component 1 NM_021766 NM_006667 NM_016783 470 1392917_AT BI302971 Arfaptin 1 NM_021763 NM_014447 XM_130985 471 1368347_AT AF272661 collagen, type V, alpha 3 NM_021760 NM_015719 NM_016919 472 1368173_AT AF194371 Nopp140 associated protein NM_021754 NM_015934 NM_018868 473 1398286_AT M64755 cysteine-sulfinate decarboxylase NM_021750 NM_015989 NM_144942 474 1374779_AT BM388525 Coagulation factor XIIIa NM_021698 NM_000129 NM_028784 475 1367658_AT AF133301 SH3/ankyrin domain gene 3 NM_021676 XM_037493 NM_021423 476 1370023_AT M76532 gap junction membrane channel protein alpha 4 NM_021654 NM_002060 NM_008120 477 1368448_AT Y12760 latent transforming growth factor beta NM_021586 NM_000428 NM_013589 binding protein 2 478 1370256_AT AA944349 Rattus norvegicus transcribed sequences NM_021266 NM_003505 NM_021457 479 1387389_AT AB030944 receptor (calcitonin) activity modifying NM_020100 NM_005856 NM_019511 protein 3 480 1384227_AT AI044031 Rattus norvegicus transcribed sequence with NM_020085 NM_002844 NM_008983 strong similarity to protein sp: Q15262 (H. sapiens) PTPK_HUMAN Protein-tyrosine phosphatase kappa precursor (R-PTP-kappa) 481 1368655_AT K02934 proteoglycan peptide core protein NM_020074 NM_002727 NM_011157 482 1386866_AT D17447 tyrosine 3-monooxgenase/tryptophan 5- NM_019376 NM_012479 NM_018871 monooxgenase activation protein, gamma polypeptide 483 1367905_AT U78787 alkaline phosphodiesterase NM_019370 NM_005021 XM_125594 484 1387856_AT BI274457 calponin 3, acidic NM_019359 NM_001839 NM_028044 485 1386913_AT U07797 glycoprotein 38 NM_019358 NM_006474 NM_010329 NM_198389 486 1382108_AT AA900536 V-maf musculoaponeurotic fibrosarcoma NM_019316 NM_005461 NM_010658 oncogene family, protein B (avian) (Mafb) 487 1369087_AT D28498 FMS-like tyrosine kinase 1 NM_019306 NM_002019 NM_010228 1375473_AT BI296644 1383019_AT BF558478 1393235_AT AI059968 488 1367733_AT X58294 carbonic anhydrase 2 NM_019291 NM_000067 NM_009801 1386922_AT AI408948 489 1371572_AT BM986220 amyloid beta (A4) precursor protein NM_019288 NM_000484 NM_007471 NM_201413 NM_201414 490 1368370_AT M80633 adenylyl cyclase 4 NM_019285 NM_139247 NM_080435 491 1386912_AT U94710 procollagen C-proteinase enhancer protein NM_019237 NM_002593 NM_008788 492 1388089_A_AT AY050655 ring finger protein 4 NM_019182 NM_002938 NM_011278 493 1367942_AT M76110 acid phosphatase 5 NM_019144 NM_001611 NM_007388 494 1369897_S_AT BI277035 GNAS complex locus NM_019132 NM_000516 NM_010309 NM_080426 NM_010310 NM_080425 NM_019690 NM_016592 NM_022000 495 1387005_AT L03201 cathepsin S NM_017320 NM_004079 NM_021281 496 1371840_AT BI295971 Rattus norvegicus endothelial differentiation NM_017301 NM_001400 NM_007901 sphingolipid G-protein-coupled receptor 1 497 1369065_A_AT J04022 ATPase, Ca++ transporting, cardiac muscle, NM_017290 NM_170665 NM_009722 slow twitch 2 NM_001681 498 1367959_A_AT AF182949 sodium channel, voltage-gated, type I, beta NM_017288 NM_001037 NM_011322 polypeptide NM_199037 499 1367663_AT D45249 protease (prosome, macropain) 28 subunit, NM_017264 NM_006263 NM_011189 alpha NM_176783 500 1367930_AT X06338 growth associated protein 43 NM_017195 NM_002045 NM_008083 501 1387395_AT M91466 adenosine A2B receptor NM_017161 NM_000676 NM_007413 502 1369973_AT J05579 xanthine dehydrogenase NM_017154 NM_000379 NM_011723 503 1370057_AT U09567 cysteine and glycine-rich protein 1 NM_017148 NM_004078 NM_007791 504 1370184_AT BG666614 cofilin 1 NM_017147 NM_005507 NM_007687 1387871_AT BM389673 505 1371824_AT AA891949 Rattus norvegicus adenylate kinase 4 (Ak4), NM_017135 NM_013410 NM_009647 mRNA 506 1372326_AT AA901341 solute carrier family 2, member 2 NM_017102 NM_006931 NM_011401 507 1368280_AT D90404 cathepsin C NM_017097 NM_001814 NM_009982 NM_148170 508 1367594_AT U17834 biglycan NM_017087 NM_001711 NM_007542 509 1387153_AT X76454 reversion induced LIM gene NM_017062 NM_003687 NM_019417 510 1370172_AT AA892254 superoxide dismutase 2 NM_017051 NM_000636 NM_013671 511 1368259_AT S67721 prostaglandin-endoperoxide synthase 1 NM_017043 NM_000962 NM_008969 NM_080591 512 1369044_A_AT AF202733 phosphodiesterase 4B NM_017031 NM_002600 NM_019840 513 1368000_AT X52477 complement component 3 NM_016994 NM_000064 NM_009778 514 1387402_AT U31463 myosin, heavy polypeptide 9 NM_013194 NM_002473 NM_022410 515 1368183_AT J03806 phospholipase C, gamma 1 NM_013187 NM_002660 NM_021280 NM_182811 516 1368612_AT U60096 integrin beta 4 NM_013180 NM_000213 XM_109756 517 1367859_AT U03491 transforming growth factor, beta 3 NM_013174 NM_003239 NM_009368 518 1370244_AT AI176595 cathepsin L NM_013156 NM_001333 NM_009984 (CSTL2) NM_001912 NM_145918 (CSTL) 519 1389611_AT AA849857 very low density lipoprotein receptor NM_013155 NM_003383 NM_013703 520 1387343_AT M65149 CCAAT/enhancer binding, protein (C/EBP) NM_013154 NM_005195 NM_007679 1368813_AT BF419200 delta 521 1387548_AT AF008201 hyaluronan synthase 2 NM_013153 NM_005328 NM_008216 522 1367800_AT M23697 plasminogen activator, tissue NM_013151 NM_000930 NM_008872 NM_000931 NM_033011 523 1372104_AT BF289002 Guanine nucleotide binding protein, alpha NM_013145 NM_002069 XM_355574 inhibiting 1 524 1389373_AT AI029555 MAD homolog 1 (Drosophila) NM_013130 NM_005900 NM_008539 525 1391946_AT BI296054 selectin, platelet NM_013114 NM_003005 NM_011347 526 1367814_AT M14137 ATPase Na+/K+ transporting beta 1 NM_013113 NM_001677 NM_009721 1386937_AT AI232036 polypeptide (not NME7) 527 1388201_AT AW141680 bone morphogenetic protein 6 NM_013107 NM_001718 NM_007556 528 1398828_AT U09386 FK506-binding protein 1a NM_013102 NM_054014 NM_008019 1398829_AT AI598372 NM_053308 NM_000801 529 1378925_AT AW529408 cAMP responsive element modulator NM_013086 NM_181571 NM_013498 NM_017334 NM_182717 NM_182718 NM_182719 NM_182720 NM_182721 NM_182722 NM_182723 NM_182724 NM_182725 NM_182769 NM_182770 NM_182771 NM_182772 NM_182850 NM_182853 NM_183011 NM_183012 NM_183013 NM_183060 530 1387675_AT X63434 plasminogen activator, urokinase NM_013085 NM_002658 NM_008873 1398287_AT X65651 531 1367948_A_AT U93307 kinase insert domain protein receptor NM_013062 NM_002253 NM_010612 532 1367693_AT D17445 tyrosine 3-monooxygenase/tryptophan 5- NM_013052 NM_003405 NM_011738 monooxygenase activation protein, eta polypeptide 533 1374171_AT AI170507 Abcc9: ATP-binding cassette, sub-family C NM_013040 NM_005691 NM_011511 (CFTR/MRP), member 9 NM_020297 NM_021041 NM_020298 NM_021043 NM_021042 534 1387273_AT U04319 interleukin 1 receptor-like 1 NM_013037 NM_016232 NM_010743 NM_003856 NM_173459 535 1369815_AT U22414 chemokine (C-C motif) ligand 3 NM_013025 NM_002983 NM_011337 536 1367881_AT D85183 protein tyrosine phosphatase, non-receptor NM_013016 NM_080792 NM_007547 type substrate 1 537 1368145_AT M24852 Purkinje cell protein 4 NM_013002 NM_006198 NM_008791 538 1398757_AT J03969 nucleophosmin 1 NM_012992 NM_002520 NM_008722 NM_199185 539 1386948_AT M34384 nestin NM_012987 NM_006617 NM_016701 540 1387202_AT D00913 intercellular adhesion molecule 1 NM_012967 NM_000201 NM_010493 541 1387530_A_AT U18913 fos-like antigen 2 NM_012954 NM_005253 NM_008037 542 1386899_AT Y00708 cathepsin H NM_012939 NM_004390 NM_007801 NM_148979 543 1368474_AT M84488 vascular cell adhesion molecule 1 NM_012889 NM_001078 NM_011693 NM_080682 544 1368989_AT U27201 tissue inhibitor of metalloproteinase 3 NM_012886 NM_000362 NM_011595 1375138_AT AA893169 545 1367581_A_AT AB001382 secreted phosphoprotein 1 NM_012881 NM_000582 NM_009263 546 1368322_AT Z24721 superoxide dismutase 3 NM_012880 NM_003102 NM_011435 547 1392578_AT AI070875 Matrix Gla protein NM_012862 NM_000900 NM_008597 548 1387137_AT X72914 cartilage oligomeric matrix protein NM_012834 NM_000095 NM_016685 549 1367974_AT M20559 Annexin III (Lipocortin III) NM_012823 NM_005139 NM_013470 550 1387348_AT BE113270 insulin-like growth factor-binding protein 5 NM_012817 NM_000599 NM_010518 551 1368057_AT D90038 ATP-binding cassette, sub-family D (ALD), NM_012804 NM_002858 NM_008991 member 3 552 1368395_AT M22400 glypican 3 NM_012774 NM_004484 NM_016697 553 1373683_AT AI230396 Rattus norvegicus fyn proto-oncogene (Fyn), NM_012755 NM_002037 NM_008054 Mrna NM_153047 NM_153048 554 1369953_A_AT BI285141 CD24 antigen NM_012752 NM_013230 NM_009846 555 1369006_AT M68971 hexokinase 2 NM_012735 NM_000189 NM_013820 556 1387219_AT U15419 adrenomedullin NM_012715 NM_001124 NM_009627 557 1369651_AT X03150 thymus cell antigen 1, theta NM_012673 NM_006288 NM_009382 1369652_AT AI145313 558 1368049_AT D90345 t-complex protein 1 NM_012670 NM_030752 NM_013686 559 1367721_AT S61868 syndecan 4 NM_012649 NM_002999 NM_011521 560 1392264_S_AT AI500951 serine (or cysteine) proteinase inhibitor, NM_012620 NM_000602 NM_008871 1368519_AT M24067 member 1 561 1367846_AT J03628 S100 calcium-binding protein A4 NM_012618 NM_002961 NM_011311 NM_019554 562 1387154_AT M15880 neuropeptide Y NM_012614 NM_000905 NM_023456 563 1367652_AT AI713966 insulin-like growth factor binding protein 3 NM_012588 NM_000598 NM_008343 1386881_AT M31837 564 1368221_AT M14053 nuclear receptor subfamily 3, group C, NM_012576 NM_000176 NM_008173 member 1 565 1387843_AT AH005431 follistatin NM_012561 NM_006350 NM_013409 566 1368851_AT L20681 v-ets erythroblastosis virus E26 oncogene NM_012555 NM_005238 NM_011808 homolog 1 (avian) 567 1367575_AT X02610 enolase 1, alpha NM_012554 NM_001428 NM_023119 568 1378342_AT BF284819 endothelin receptor type A NM_012550 NM_001957 NM_010332 1383641_AT BF414702 569 1368419_AT AF202115 ceruloplasmin NM_012532 NM_000096 NM_007752 1368420_AT L33869 570 1371440_AT AW916647 Beta-2 microglobulin NM_012512 NM_004048 NM_009735 571 1388666_AT AI179988 Rattus norvegicus ectodermal-neural cortex 1 NM_001003401 NM_003633 NM_007930 (Enc1), 572 1384302_AT AI712791 NTT4 (Ntt4) mRNA, complete cds L06434 573 1372256_AT BF550246 Rattus norvegicus transcribed sequence with BF550246 NM_001311 NM_007763 strong similarity to protein ref: NP_001302.1 (H. sapiens) cysteine-rich protein 1 (intestinal); cysteine-rich intestinal protein [Homo sapiens] 574 1374953_AT AI599484 cDNA clone IMAGE: 7110106 BC078951 XM_131302 575 1373666_AT AI102560 Guanine nucleotide exchange factor (Mrgef) AY390379 NM_012294 NM_175930 mRNA, complete cds 576 1385397_AT AA859085 Ab1-219 mRNA, complete cds AY325154 NM_024636 NM_054098 577 1381678_AT AW525560 Rattus norvegicus basophilic leukemia AY268934 NM_003088 NM_007984 expressed sequence 06 (Bles06) mRNA, partial cds 578 1370802_AT AF336872 integrin, beta 5 AF336872 NM_002213 NM_010580 579 1392905_AT BF552733 Guanine nucleotide binding protein, gamma 2 AF022087 NM_012202 NM_010316 580 1393252_AT AA996804 LOC315191 similar to Fbln1 protein XM_243637 NM_006486 NM_010180 581 1393944_AT AI764505 similar to Ecotropic viral integration site 3 XM_226153 NM_015461 NM_145492 NM_181326 582 1371545_AT AI010414 583 1371986_AT AI576652 584 1372005_AT BI294361 585 1372006_AT BM391274 586 1372213_AT BM390487 587 1372223_AT BG374299 588 1372234_AT AA800950 589 1372311_AT BG380795 Rattus norvegicus transcribed sequences NM_005471 NM_011937 590 1372410_AT AW251360 591 1372549_AT AI409460 Transcribed locus, highly similar to NM_203411 NM_025915 NP_080191.2 RIKEN cDNA 2600017H02 gene 592 1372579_AT BF288089 593 1372585_AT BM388445 594 1372761_AT AI228076 595 1372836_AT AI170399 596 1372838_AT AI227902 597 1373079_AT BI296427 598 1373102_AT BI282750 599 1373140_AT AA851740 600 1373180_AT AI227919 601 1373181_AT BE101285 602 1373217_AT AI010234 603 1373286_AT AA875261 604 1373310_AT BF396512 605 1373401_AT AI176034 Highly hmologous to murine tenascin C NM_002160 NM_011607 [Mus musculus] 606 1373415_AT AI407050 607 1373487_AT AI030552 608 1373488_AT BF289154 609 1373533_AT AI412460 610 1373628_AT AA818342 611 1373740_AT AA851385 612 1374057_AT AI177143 613 1374172_AT AI010883 614 1374273_AT BG665433 615 1374276_AT BE104102 616 1374284_AT AI227769 617 1374285_AT AW531275 618 1374306_AT BF394933 619 1374529_AT AI406660 Highly hmologous to murine thrombospondin 1 NM_003246 NM_011580 620 1374531_AT AA926305 Transcribed sequence with moderate similarity to protein pir: T45059 (C. elegans) T45059 hypothetical protein Y39B6B.gg [imported] - Caenorhabditis elegans 621 1374635_AT AW527151 622 1374742_AT AA943983 623 1374771_AT BM388859 624 1374868_AT AW535434 625 1375028_AT AI409635 626 1375051_AT BE104792 627 1375270_AT BM384026 628 1375377_AT BE098713 629 1375463_AT BG380847 630 1375721_AT BF408438 631 1376004_AT BF285297 632 1376045_AT AW529960 633 1376055_AT AA859768 634 1376128_AT AI103937 635 1376624_AT BF288208 636 1376631_AT BF283675 637 1376655_AT AA850435 638 1376786_A_AT BF397709 639 1376848_AT AI137988 640 1376919_AT BG665267 641 1377630_AT AI408602 Transcribed sequence with moderate similarity to protein pir: S12207 (M. musculus) S12207 hypothetical protein 642 1377697_AT BI275738 643 1377702_AT BG380173 Similar to Mus musculus purinergic receptor NM_005767 NM_175116 (family A group 5) (P2y5) 644 1377723_AT AI234810 645 1377862_AT BI274618 646 1378321_AT BG375029 647 1378440_AT BM385137 648 1378507_AT BE108914 649 1379294_AT AA957424 650 1379331_AT AA965084 651 1379497_AT BI275261 1391505_X_AT 652 1379604_AT BF284937 653 1379790_AT BI288729 654 1379799_AT BF415056 655 1379882_A_AT BE116018 Locus highly similar to NP_072075.1 NM_006182 NM_022563 discoidin domain receptor family, member 2 [Mus musculus] 656 1380089_AT AI407434 657 1380318_AT BF401102 658 1380908_AT AA924563 659 1381335_AT BE349658 660 1381410_A_AT AI555744 661 1381461_AT AI058509 662 1381915_AT AI111735 663 1382017_AT AI012949 664 1382212_AT AI385201 665 1382296_AT BF291041 666 1382375_AT AI639128 667 1382404_AT BG669741 668 1382482_AT AI178627 669 1382536_AT BE109224 670 1382571_AT AA925335 671 1382628_AT BE111904 672 1382692_AT AI045955 673 1382818_AT AI177067 674 1382995_AT AA859669 675 1383147_AT AW526373 676 1383193_AT BE112341 677 1383261_AT BF560105 678 1383382_AT BI294931 Similar to Jumonji, AT rich interactive NM_004973 NM_021878 domain 2 679 1383489_AT BG663025 680 1383498_AT BG373354 681 1383533_AT AI715743 Similar to Homo sapiens REST corepressor 3 NM_018254 NM_144814 (RCOR3) 682 1383776_AT AW525120 683 1383844_AT BI296898 684 1383914_AT AI717613 685 1383935_AT AW252428 686 1384188_AT AW142766 687 1384192_AT AA819913 688 1384232_AT AI709768 689 1384335_AT BE111885 690 1384724_AT AA850766 691 1384899_AT AA996921 692 1385359_AT BF406890 693 1385506_AT AW530507 694 1385925_AT AA963975 1385926_AT BF550565 695 1388271_AT BM383531 696 1388486_AT BG671315 697 1388700_AT AW253004 highly similar to NP_899009.1 checkpoint NM_005197 NM_183186 supressor 1 [Mus musculus] 698 1388705_AT BI282694 Rattus norvegicus transcribed sequence with NM_080430 NM_053267 moderate similarity to protein ref: NP_536355.1 (H. sapiens) selenoprotein SelM [Homo sapiens] 699 1388742_AT AA945877 700 1388870_AT BF284305 701 1389018_AT BF411239 702 1389039_AT BM386520 703 1389151_AT AI103440 704 1389186_AT AA944175 Similar to Mus musculus serologically NM_173485 XM_130644 defined colon cancer antigen 33 like 705 1389213_AT AI408955 706 1389590_AT AA925513 707 1389651_AT AI177057 708 1389789_AT AI059662 709 1389883_AT BF284719 Transcribed locus, highly similar to NM_194291 NM_175212 NP_919267.1 hypothetical protein BC017881 [Homo sapiens] 710 1390173_AT BG377886 711 1390300_AT BM383635 712 1390306_AT AW531909 713 1390380_AT BE116633 714 1390536_AT BF551311 715 1390555_AT AW530876 Transcribed locus, highly similar to NM_014011 NM_019654 NP_054730.1 suppressor of cytokine signaling 5 [Homo sapiens] 716 1390647_AT AI410924 717 1390828_AT BI395810 718 1390832_AT BI294696 719 1390835_AT AI013568 720 1391167_AT AW532567 721 1391607_AT BE109653 NM_031459 NM_144907 722 1391856_AT BE108859 723 1391871_AT AI763550 724 1392044_AT BE117009 AK020182 725 1392220_AT AW532634 726 1392497_AT BE104938 727 1392597_AT BG670559 728 1392736_AT AW532939 729 1392934_AT BM384509 730 1392948_AT BI290737 731 1392953_AT BI296250 Transcribed locus, highly similar to NM_014241 NM_013935 NP_038963.1 protein tyrosine phosphatase- like (proline instead of catalytic arginine), member a [Mus musculus] 732 1393003_AT AA899900 733 1393316_AT AI072658 734 1393730_AT BI277836 735 1394109_AT BF558056 NM_003246 NM_011580 736 1394315_AT BF562800 NM_003088 NM_007984 737 1394459_AT AI715738 738 1394612_AT AW535206 739 1395079_AT AI454784 740 1395197_AT BI293027 741 1395635_AT BE098317 742 1396208_AT BM389807 743 1397317_AT BI296984 744 1397808_AT AW920064 745 1398131_AT BE096035 746 1398380_AT BF413643 747 1398390_AT AA892854 748 1398597_AT AI044699 749 1398656_AT AI576497 (human G protein-coupled receptor 133) NM_198827 NM_177734 750 1398727_AT BF398091 751 1399122_AT BI278603 752 1377994_AT AI501237 753 1378526_AT AI012423 754 1383080_AT BI292252 755 1383355_AT AW918387 Similar to ATP-binding cassette, sub-family NM_005502 NM_013454 A (ABC1), member 1 756 1383644_AT BM385202 

1. A method for identifying compounds for regulating angiogenesis, comprising: a. contacting a compound with a protein identified in Table 4; b. determining whether the compound binds or activates the protein; and c. identifying those compounds that bind or activates the protein as compounds for regulating angiogenesis.
 2. A method according to claim 1, further comprising: a. selecting those compounds that bind or activate the protein, and further determining whether the compound regulates angiogenesis in an angiogenesis model system; and b. identifying those compounds that regulates angiogenesis in an angiogenesis model system as compounds for regulating angiogenesis.
 3. A method according to claim 1, further comprising: administering the compound identified in step (c) of claim 1 to a non-human animal, and determining whether the compound regulates angiogenesis in the animal, wherein compounds that regulate angiogenesis in the animal are identified as compounds for regulating angiogenesis in vivo.
 4. A method according to claim 2, further comprising: administering the compound identified in step (b) of claim 2 to a non-human animal, and determining whether the compound regulates angiogenesis in the animal, wherein compounds that regulate angiogenesis in the animal are identified as compounds for regulating angiogenesis in vivo.
 5. A method according to claim 1, wherein the protein is expressed on a cell.
 6. A method for identifying compounds for regulating angiogenesis, comprising: a. contacting a compound with a cell population expressing a gene identified in Table 4; b. determining and comparing the level of expression of the gene in the cell population that is contacted with the compound to the level of expression of the gene in the cell population that is not contacted with the compound; and c. identifying those compounds that modulate the expression of the gene in the cell population that is contacted with the compound compared to the expression of the gene in the cell population that is not contacted with the compound as compounds for regulating angiogenesis.
 7. A method according to claim 6, further comprising: a. determining whether the compound identified in step (c) of claim 6 regulates angiogenesis in an angiogenesis model system; and b. identifying those compounds that regulate angiogenesis in an angiogenesis model system as compounds for regulating angiogenesis.
 8. A method according to claim 6, further comprising: administering the compound identified in step (c) of claim 6 to a non-human animal, and determining whether the compound regulates angiogenesis in the animal, wherein compounds that regulate angiogenesis in the animal are identified as compounds for regulating angiogenesis.
 9. A method according to claim 7, further comprising: administering the compound identified in step (b) of claim 7 to a non-human animal, and determining whether the compound regulates angiogenesis in the animal, wherein compounds that regulate angiogenesis in the animal are identified as compounds for regulating angiogenesis.
 10. A method of monitoring the treatment or progression of a disorder in a patient with unregulated or improperly regulated angiogenesis, comprising: a. preparing a gene expression profile for one or more gene involved in regulating angiogenesis identified in Table 4; or preparing a protein expression profile, or protein activity profile of one or more proteins involved in regulating angiogenesis identified in Table 4 from a subject; b. administering a therapeutic regimen to the subject; c. preparing a similar expression or activity profile as in step (a) from a cell or tissue sample from the subject after a suitable time after the therapeutic regimen; d. comparing the profiles prior to the therapy with profiles after the therapy; and e. repeating the steps (b), (c) and (d) during the course of the treatment or disorder and evaluating the data to monitor efficacy of the treatment or progression of the disorder.
 11. A pharmaceutical composition comprising a safe and effective amount of a compound identified by the method according to claim
 1. 12. A pharmaceutical composition comprising a safe and effective amount of a compound identified by the method according to claim
 6. 13. A method according to claim 1, wherein the protein is ETL protein.
 14. A method according to claim 6, wherein the gene is the gene coding for ETL protein.
 15. A pharmaceutical composition according to claim 11, wherein the compound is an agonist or an antagonist of ETL protein.
 16. A method according to claim 1, wherein the protein is GPR176 protein.
 17. A method according to claim 6, wherein the gene is the gene coding for GPR176 protein.
 18. A pharmaceutical composition according to claim 11, wherein the compound is an agonist or an antagonist of GPR176 protein. 